JP5713819B2 - Connection unit - Google Patents

Description

  The present invention relates to a connection unit that can easily perform wiring work between a plurality of LED illuminating lamps that are spaced apart from each other.

  Various illumination devices using, for example, light emitting diodes (LEDs) have been proposed as illumination devices. In general, light emitting diodes have recently attracted attention as lighting devices because they have lower power consumption and longer life than fluorescent lamps.

  For example, in FIG. 6 and FIG. 12 of Japanese Patent Application Laid-Open No. 2009-99363, a configuration in which a plurality of LED illumination units are arranged close to each other is proposed. In this case, a male connector is provided at one end of each LED lighting unit and a female connector is provided at the other end, and one male connector is connected to the other female connector between the adjacent LED lighting units. Thus, a plurality of LED lighting units are connected in the length direction or the width direction orthogonal thereto. Thus, in the layout in which the lighting units are arranged close to each other, the problem of wiring work between the lighting units does not occur.

  However, as shown in FIG. 19 of the present application, in the case of a layout in which a plurality of LED lighting units 100 are spaced apart from each other, wiring 101 for connecting an external power source and each LED lighting unit 100 and between each LED lighting unit 100 is necessary. Thus, the wiring work becomes complicated. In particular, in the case of a layout in which the LED lighting units are spaced apart from each other on the ceiling, if the LED lighting units that are separated from each other are connected to each other on the lower side of the ceiling, the wiring is exposed indoors and the appearance is deteriorated. It is conceivable to perform wiring connection on the upper side (back side) of the ceiling. In this case, the wiring works between the upper side and the lower side of the ceiling, which further complicates the wiring work. In addition, when each LED lighting unit is arranged in a radial shape or a grid shape, a large number of wires are concentrated at the intersection of the LED lighting units, so that the wiring work is further complicated. Become.

  The present invention has been made in view of such a conventional situation, and the problem to be solved by the present invention is to provide a connection unit that can easily perform wiring work between a plurality of LED lighting lamps arranged separately. It is to provide. Further, according to the present invention, in such a connection unit, it is not necessary to separately provide a power supply unit for each LED illumination light, and wiring work between the LED illumination lights can be performed more easily.

In order to solve the above-described problems, the present invention provides a connection unit that can be accommodated between a plurality of LED illumination lights and can accommodate a terminal unit for wiring connection between the LED illumination lights. units, comprises a base mounted on the mounting surface of the LED illuminating lamp, and removable base cover covering the base, and a wiring cover covering the wiring between the connection unit and the LED lighting between the mounting surface are (see claim 1).

According to the present invention, the wiring connection between the plurality of LED lighting lamps is performed through the connection unit, so that the wiring work between the LED lighting lamps can be easily performed without causing the wirings to be mixed randomly. Become. At this time, when the terminal unit is accommodated in the connection unit , the wiring work can be further simplified and the wiring can be branched through the terminal unit. It is possible to easily cope with various arrangements such as arranging in a shape, a radial shape, and a honeycomb shape.

  In the present invention, the terminal unit has a terminal to which a wiring including a power line for supplying a power source current to the LED lighting is connected (see claim 2).

In the present invention, the terminal unit is in so that attached to the base (see claim 3).

In the present invention, a power supply unit can be further accommodated in the connection unit (see claim 4). In this case, for example, when a plurality of LED illumination lamps include DC-driven LED illumination lamps, it is not necessary to provide a power supply unit for each LED illumination lamp, so the configuration of the entire LED illumination lamp is simplified. In addition, the wiring work between the LED lighting lamps can be performed more easily.

  In the present invention, the power supply unit is provided integrally with the terminal unit or detachably attached to the terminal unit (see claim 5).

  In the present invention, the connection unit includes an indicator lamp, a camera, or a living body detection sensor (see claim 6).

In the present invention, wiring cover is provided so as to be adjustable in length (see claim 7). In this case, by appropriately adjusting the length of the wiring cover according to the length of the exposed wiring, the cutting work of the wiring cover becomes unnecessary and the wiring work can be simplified.

As described above, according to the present invention, the wiring connection between the plurality of LED lighting lamps is performed through the connection unit, so that the wiring work between the LED lighting lamps can be performed without causing the wirings to be messy. It becomes easy to do. At this time, when the terminal unit is accommodated in the connection unit , the wiring work can be further simplified and the wiring can be branched through the terminal unit. For example, it is possible to easily cope with various arrangements such as arranging in the shape of a shape, radial shape, or honeycomb.

It is a figure which shows the state by which many LED illuminating lamps were connected with the grid | lattice form (cross-cut shape) through the connection unit by one Example of this invention. It is a whole perspective view of a connection unit (Drawing 1). FIG. 3 is an exploded view of a connection unit (FIG. 2). FIG. 2 is an exploded view of the LED lighting (FIG. 1). It is a figure for demonstrating the wiring operation | work when each LED illumination light is AC drive type. It is a figure for demonstrating the wiring operation | work when each LED illumination light is AC drive type. It is a figure for demonstrating the wiring operation | work when each LED illumination light is AC drive type. It is a figure for demonstrating the wiring operation | work when each LED illumination light is AC drive type. It is a figure for demonstrating the wiring operation | work when each LED illumination light is a DC drive type. It is a figure for demonstrating the wiring operation | work when each LED illumination light is a DC drive type. It is a figure for demonstrating the wiring operation | work when each LED illumination light is a DC drive type. It is a figure for demonstrating the wiring operation | work when each LED illumination light is a DC drive type. It is a figure for demonstrating the wiring operation | work when each LED illumination light is a DC drive type. It is a figure which shows an example of the method of the wiring in the LED lighting lamp of a grid | lattice arrangement | sequence. It is a figure for demonstrating the coordinate position of each grating | lattice of the grid | lattice-like arrangement | sequence of FIG. It is a whole perspective view of the 1st modification of a connection unit. It is a whole perspective view of the 2nd modification of a connection unit. It is a figure which shows the state which applied many LED illuminating lamps connected by the grid | lattice form via a connection unit (FIG. 16) to the ceiling surface of a warehouse. It is an enlarged view of A part in FIG. It is an enlarged view of B part in FIG. It is a figure for demonstrating the state which used many LED illuminating lamps connected by the grid | lattice form via the connection unit (FIG. 15, FIG. 16) as an emergency guide light. It is a figure for demonstrating the wiring operation | work of the conventional LED illumination light spaced apart.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 shows a state in which a connection unit according to an embodiment of the present invention is applied to ceiling lighting. As shown in the figure, a large number of LED illuminating lamps 10 are arranged in a lattice pattern (a grid pattern) in the vertical direction and the horizontal direction of the ceiling surface Cp. The LED illumination lamps 10 are connected to each other by the connection unit 1.

  2 and 3 show the connection unit 1. Here, the connection unit 1 is shown at a portion where each LED illumination lamp 10 crosses in a cross shape in the vertical and horizontal directions in the grid array of FIG. The connection unit 1 is an attachment member for attaching the connection unit 1 to the ceiling surface Cp, for example, a base 2 made of metal (may be made of resin or other material), a power supply unit 3 attached to the base 2, and a terminal unit. 4 and a cover 5 detachably attached to the base 2. The connection unit 1 is further provided with a wiring cover 6 that covers the wiring with the LED illumination lamp 10.

  As shown by the one-dot chain line in FIG. 3, an opening 2 a may be formed through the base 2. The opening 2a is for drawing a power line from an external power source, for example. The power supply unit 3 converts an AC current supplied from an external power supply (for example, AC 200V) into a DC current and supplies the DC current to the LED lighting lamp 10, and has a constant voltage circuit or a constant current circuit. doing. The power supply unit 3 incorporates an AC terminal block (not shown) to which a power line from an external power supply is connected, and has the terminal block integrally. Here, an example in which two power supply units 3 are provided is shown.

  The terminal unit 4 is for supplying the DC current from the power supply unit 3 to the LED lighting lamp 10 and has a plurality of terminals. The terminal unit 4 is provided separately from the power supply unit 3 or detachably on the power supply unit 3 or the base 2. The power supply unit 3 and the terminal unit 4 are accommodated in an internal space surrounded by the base 2 and the cover 5.

  The terminal unit 4 is composed of a single unit or a plurality of units. A predetermined number of terminals are attached to each unit, and a plurality of types of units having different numbers and sizes of terminals are prepared. By appropriately selecting the type and / or number of units, it is possible to configure a terminal unit having a desired number of terminals, thereby enabling flexible correspondence according to the layout of the LED lighting lamp 10. It has become.

  The terminal unit 4 can be detachably attached to the base 2 by attaching a DIN rail to the base 2 and attaching the terminal unit 4 to the DIN rail, or fitting the terminal unit 4 to the base 2 as an attachment part of the terminal unit 4. A joint portion, a gripping portion 4A (see FIG. 3) and the like are preferably provided integrally with the base 2, and the terminal unit 4 is attached to the attachment portion, or the terminal unit 4 is screwed to the base 2. Conceivable.

  A plurality of (here, four) notches 5a are formed in the cover 5, and the notches 5a are evenly arranged on the circumference at intervals of 90 degrees. The wiring cover 6 is slidably supported by the notch 5a. Each wiring cover 6 is arrange | positioned in the arrangement | positioning direction of each LED illumination light 10 arranged in the grid | lattice form. Here, since the connection unit 1 shows a connection unit where each LED lighting lamp 10 intersects in a cross shape in the vertical and horizontal directions, a state in which four wiring covers 6 are attached to the connection unit 1 is shown. . In the grid arrangement of FIG. 1, two orthogonal wiring covers 6 are attached to the corner connection units 1, and in the grid arrangement of FIG. Two wiring covers 6 are attached.

  As shown in FIG. 4, the LED illumination lamp 10 includes an illumination lamp main body 11 having a plurality of LED elements 11A, a base frame 12 for attaching the illumination lamp main body 11 to the ceiling surface Cp, and a light emitting surface of the illumination lamp main body 11. And a detachable translucent cover 13 covering the.

  The illuminating lamp main body 11 is fixed to the base frame 12 with screws. Each LED element 11 </ b> A is arranged at a predetermined interval along the longitudinal direction of the illuminating lamp body 11. An engagement groove 11a extending in the longitudinal direction is formed on the mounting surface on the ceiling surface side of the illuminating lamp main body 11, and the end of the corresponding wiring cover 6 is inserted into the groove 11a so as to be engaged therewith. It has become. An opening 12a is formed through the end of the base frame 12 in the longitudinal direction to allow wiring including power supply lines to pass therethrough.

  In FIG. 3, the case where both the power supply unit 3 and the terminal unit 4 are provided on the base 2 of the connection unit 1 is shown as an example, but which unit is provided on the base 2 depends on the LED illumination to be connected. It differs depending on whether the lamp 10 is an AC (alternating current) drive type or a DC (direct current) drive type. Hereinafter, the wiring work of the LED lighting lamp 10 will be described with reference to FIGS. 5 to 8 show a case where the LED illumination lamp 10 is an AC drive type, and FIGS. 9 to 13 show a case where the LED illumination lamp 10 is a DC drive type.

<In case of AC drive type>
As shown in FIG. 5, first, the base frame 12 of the LED illuminating lamp 10 is attached to the ceiling surface Cp which is an attachment surface. In addition, an AC input terminal block (terminal unit) 40 is installed on the base 2 of the connection unit 1, and the base 2 is attached to the ceiling surface Cp.

  From this state, as shown in FIG. 6, an AC power line (lamp line) 50 from an external power source is connected to one terminal of the terminal block 40 through the base frame 12 on the left side of the figure, and The AC input is branched into two from the two terminals, and they are arranged along the respective base frames 12 on the right side and the lower side of the figure as transition wires 51 and 52, respectively. In addition, about the base frame 12 of the upper side of illustration, the transition wiring (not shown) from another route is arrange | positioned.

  Next, as shown in FIG. 7, the illuminating lamp body 11 of the LED illuminating lamp 10 is attached to the base frame 12. At this time, the AC power line 50 is connected to the illuminating lamp main body 11 of the left side LED illuminating lamp 10 via a connector (not shown) or the like, and the transition wires 51 and 52 are respectively connected to the right side and lower side LEDs shown in the figure. It connects with the illuminating lamp main body 11 of the illuminating lamp 10 via a connector (not shown). In addition, a translucent cover 13 is attached to each illumination lamp main body 11 and a cover 5 is attached to the base 2.

Next, as shown in FIG. 8, the wiring cover 6 is disposed between the cover 5 and each LED illumination lamp 10. At this time, one end of each wiring cover 6 is engaged with the notch 5a (FIG. 7) of the cover 5, and the other end is engaged with the engaging groove 11a (FIG. 4) of the illuminating lamp body 11 of the LED illuminating lamp 10. ing.
In this way, the wiring work of the LED lighting lamp 10 is completed.

<For DC drive type>
As shown in FIG. 9, first, the base frame 12 of the LED illuminating lamp 10 is attached to the ceiling surface Cp which is an attachment surface. Also, a terminal block (terminal unit) 40 for AC input, a power supply unit 30 for converting AC current into DC current, and a terminal block (terminal unit) 41 for DC output (that is, LED power supply) are provided. While installing in the base 2 of the connection unit 1, the base 2 is attached to the ceiling surface Cp. Each terminal block 40, 41 is provided separately from the power supply unit 30 or is detachably provided to the power supply unit 30.

  From this state, as shown in FIG. 10, an AC power line (electric light line) 50 from an external power source is connected to one terminal of the terminal block 40 through the base frame 12 on the left side of the figure, and The AC input is branched into two from the two terminals, and they are arranged along the respective base frames 12 on the right side and the lower side of the figure as transition wires 51 and 52, respectively. Further, as shown in FIG. 11, four DC power supply lines 55, 56, 57, and 58 from the terminal block 41 are arranged along the left, right, lower, and upper base frames 12, respectively.

  Next, as shown in FIG. 12, the illuminating lamp main body 11 of the LED illuminating lamp 10 is attached to the base frame 12. At this time, the DC power supply lines 55, 56, 57, and 58 are connected to the left, right, lower, and upper illumination lamp main bodies 11 through connectors (not shown) or the like, respectively. In addition, a translucent cover 13 is attached to each illumination lamp main body 11 and a cover 5 is attached to the base 2.

Next, as shown in FIG. 13, the wiring cover 6 is disposed between the cover 5 and each LED illumination lamp 10. At this time, one end of each wiring cover 6 is engaged with the notch 5a (FIG. 7) of the cover 5, and the other end is engaged with the engaging groove 11a (FIG. 4) of the illuminating lamp body 11 of the LED illuminating lamp 10. ing.
In this way, the wiring work of the LED lighting lamp 10 is completed.

  In both cases of the AC drive type and the DC drive type, the AC power line 50 may include a ground line. Moreover, about what LED lighting lamp 10 is dimmable and controllable, a terminal block for dimming is provided on base 2, and the dimming signal line from the terminal block is connected to LED lighting lamp 10. Also good.

  As described above, the terminal units 40 and 41 can be changed to a terminal unit having a desired number of terminals by appropriately selecting the type and / or number of units constituting each terminal unit. Installation of optical terminal blocks is easy. In addition to the dimming terminal block, the user can easily select the required number of terminals according to the usage environment and usage conditions on the user side.

  As for the attachment of the wiring cover 6, the wiring cover 6 is slidably accommodated in the notch 5 a of the cover 5 of the connection unit 1 in advance, the cover 5 is attached to the base 2, and then the notch of the cover 5 is attached. The wiring cover 6 may be pulled out from 5a and the tip thereof may be engaged with the engaging groove 11a of the illuminating lamp main body 11. Alternatively, the wiring cover 6 is slidably accommodated in advance in the engagement groove 11 a of the illuminating lamp body 11 of the LED illuminating lamp 10 and the cover 5 of the connection unit 1 is attached to the base 2. The wiring cover 6 may be pulled out from the engaging groove 11a and the tip thereof may be engaged with the notch 5a of the cover 5 of the connection unit 1.

Next, FIG. 14 shows an example of a wiring method for the LED lighting lamps in a grid array.
Here, a case where the LED lighting lamps 10 are arranged in four rows and four rows is taken as an example. In the figure, solid arrows indicate AC power supply wiring routes, and broken arrows indicate DC power supply wiring routes. Further, the connection unit 1a surrounded by the alternate long and short dash line includes both the power supply unit and the terminal unit, and the connection unit 1b does not include the power supply unit, and only the terminal unit. Further, the connection unit 1 b ′ is an empty unit that does not contain a power supply unit or a terminal unit and that accommodates nothing in the internal space surrounded by the base 2 and the cover 5. The connection unit 1b ′ is not different from the other connection units 1a and 1b in appearance, and the size of the internal space surrounded by the base 2 and the cover 5 is the same as that of the connection units 1a and 1b. It has a space that can accommodate the unit and the terminal unit.

  Wiring in the wiring example shown in FIG. 14 will be described with reference to FIG. 14A. FIG. 14A is a diagram for explaining the coordinate position of each lattice point of the lattice-like arrangement in FIG. 14, where the upper left lattice point is the origin (0, 0), and the x coordinate and y The coordinates are taken to represent the coordinate position of each grid point.

  As shown in FIGS. 14 and 14A, an AC input from an external power source is input to the connection unit 1b at the origin (0, 0) at the upper left in the drawing, and the AC input is on the x axis (y = 0). The three LED lighting lamps 10 and the insides of the connection units 1a and 1b having the coordinates (1, 0) and (2, 0) are inputted to the connection unit 1a having the coordinates (3, 0) at the upper right in the figure. Yes.

  The AC input passes through the three LED illumination lamps 10 on the y-axis (x = 0) and the interiors of the connection units 1a and 1b having coordinates (0, 1) and (0, 2). It is input to the connection unit 1a at the lower left coordinate (0, 3). Further, the AC input passes from the connection unit 1a at the coordinates (0, 1) through the inside of the two LED lighting lamps 10 in the horizontal direction and the connection unit 1b at the coordinates (1, 1) to the coordinates (2, 1). ) And the three LED illuminating lamps 10 in the horizontal direction from the connection unit 1b at coordinates (0, 2) and the connection units 1a at coordinates (1, 2) and (2, 2). 1b is input to the connection unit 1a at coordinates (3, 2), and the two LED illumination lamps 10 and the coordinates (2) in the horizontal direction from the connection unit 1a at coordinates (0, 3) 1, 3) through the connection unit 1 b and input to the connection unit 1 a at coordinates (2, 3).

  On the other hand, as shown in FIG. 14 and FIG. 14A, the DC output is obtained from the connection unit 1a at the coordinates (1, 0), the LED illumination lamp 10 between the coordinates (1, 0) and the origin (0, 0), coordinates Input to the LED illuminating lamp 10 between (1, 0) and coordinates (2, 0) and the LED illuminating lamp 10 between coordinates (1, 0) and coordinates (1, 1), and coordinates (3, 0 ) From the connection unit 1a to the LED illumination lamp 10 between the coordinates (3, 0) and the coordinates (2, 0) and the LED illumination lamp 10 between the coordinates (3, 0) and the coordinates (3, 1). ing.

  Further, the DC output is obtained from the connection unit 1a at the coordinates (0, 1), the LED illumination lamp 10 between the coordinates (0, 1) and the origin (0, 0), the coordinates (0, 1) and the coordinates (1, 1). ) And the LED illumination lamp 10 between the coordinates (0, 1) and the coordinates (0, 2) and the coordinates (2, 1) from the connection unit 1a. 1) LED illuminator 10 between coordinates (2,0), LED illuminator 10 between coordinates (2,1) and coordinates (1,1), between coordinates (2,1) and coordinates (3,1) LED illumination lamp 10 and the LED illumination lamp 10 between coordinates (2, 1) and coordinates (2, 2).

  Further, the DC output is transmitted from the connection unit 1a at the coordinates (1, 2) to the LED illumination lamp 10, the coordinates (1, 2) and the coordinates (0, 2) between the coordinates (1, 2) and the coordinates (1, 1). LED illumination lamp 10 between the coordinates (1, 2) and coordinates (2, 2), LED illumination lamp 10 between the coordinates (1, 2) and coordinates (2, 2), and coordinates Input to the LED illuminating lamp 10 between (1,2) and coordinates (1,3), and from the connection unit 1a at coordinates (3,2), between coordinates (3,2) and coordinates (3,1) LED illumination lamp 10, LED illumination lamp 10 between coordinates (3, 2) and coordinates (2, 2), and LED illumination lamp 10 between coordinates (3, 2) and coordinates (3, 3) Yes.

  Further, the DC output is obtained from the connection unit 1a having the coordinates (0, 3), the LED illumination lamp 10 between the coordinates (0, 3) and the coordinates (0, 2), and the coordinates (0, 3) and the coordinates (1, 3) is input to the LED illumination lamp 10 between, and from the connection unit 1a of the coordinates (2, 3), the LED illumination lamp 10, coordinates (2, 2) between the coordinates (2, 3) and the coordinates (2, 2) 3) and the LED illumination lamp 10 between the coordinates (1, 3) and the LED illumination lamp 10 between the coordinates (2, 3) and the coordinates (3, 3).

  In this way, by performing wiring connection between the plurality of LED lighting lamps 10 via the connection units 1a, 1b, and 1b ′, the wiring work between the LED lighting lamps 10 can be performed without causing the wirings to be mixed randomly. It becomes easy to perform and can improve work efficiency. In this case, since the wiring can be branched through the terminal units built in the connection units 1a and 1b, a plurality of LED illumination lamps can be arranged in various arrangements such as a lattice shape, a radial shape, and a honeycomb shape. become.

  Further, in this case, since terminals necessary for wiring connection are concentrated on the connection units 1a and 1b, wiring is facilitated. On the other hand, the user can easily change the number of terminals as necessary, so that it is possible to flexibly cope with the use environment and use situation of the LED lighting.

  In the said Example, although the cover 5 of the connection unit 1 showed the example used as a member which only covers the base 2, application of this invention is not limited to this. 15 and 16 show first and second modifications of the connection unit 1, respectively. In these drawings, the same reference numerals as those in the previous embodiment denote the same or corresponding parts.

  The first modification shown in FIG. 15 is different from the above-described embodiment in that an indicator lamp 7 is provided on the cover 5. The indicator lamp 7 is composed of, for example, RGB compatible LEDs. Moreover, as the drive power source for the indicator lamp, the power source unit inside the connection unit 1 is used, thereby eliminating the need for a separate power source dedicated to the indicator lamp.

  The second modification shown in FIG. 16 is different from the above embodiment in that the cover 5 is provided with four indicator lamps 7A, 7B, 7C, 7D. The indicator lamps 7A, 7B, 7C, 7D are composed of, for example, RGB compatible LEDs. In addition, as a driving power source for these indicator lamps, the power source unit inside the connection unit 1 is used, so that it is not necessary to separately prepare a power source dedicated to the indicator lamp.

  In the first and second modifications, the indicator lamp may be provided on the base 2 side. In this case, the overall configuration can be simplified by using the power supply unit inside the connection unit 1. Moreover, what is necessary is just to make it make part of the outer periphery of the base 2 or the whole periphery light, for example as a form of an indicator lamp. Note that a camera such as a monitoring camera, a living body detection sensor such as a human body detection sensor, or the like may be provided instead of the indicator lamp. Even in these cases, by using the power supply unit inside the connection unit 1 as a drive power supply, a connection unit having an application such as a camera or a living body detection sensor can be realized with a simple configuration. The indicator lamp, the camera, or the living body detection sensor is supplied with electric power from the power supply unit provided in the connection unit. In this case, since the wiring for supplying power to the application such as the camera and the living body detection sensor and other applications can be completed inside the connection unit, the entire wiring work can be efficiently performed.

  FIG. 17 shows a state in which a large number of LED illumination lamps 10 are connected in a grid via the connection unit 1 having the four indicator lamps 7A, 7B, 7C, and 7D shown in FIG. In the figure, a region Y1 indicated by a solid diagonal line indicates that among the four indicator lamps of each connection unit 1 surrounding the region Y1, the indicator lamp arranged on the side closer to the region Y1 is lit in red. It is an area. In addition, a region Y2 indicated by a dashed diagonal line is a region in which the indicator lamp arranged on the side closer to the region Y2 is lit in blue among the four indicator lamps of each connection unit 1 surrounding the region Y2. It is.

  That is, for example, in the connection unit 1 surrounded by the alternate long and short dash line A in FIG. 17, all four indicator lights 7A, 7B, 7C, and 7D are lit red as shown in FIG. 17A. In the connection unit 1 surrounded by the one-dot chain line B in FIG. 17, as shown in FIG. 17B, the indicator lights 7A and 7B are lit red, the indicator lamp 7D is lit blue, and the indicator lamp 7C is turned off. Yes.

  In this way, by changing the way each indicator lamp is turned on in each connection unit 1, the region Y1 in FIG. 17 is used as a red product storage yard and the region Y2 is used as a blue product storage yard. Will be able to. In this case, when the product storage yard is changed, it is only necessary to change the display color of the indicator lamp, so the product storage yard can be easily changed.

  FIG. 18 shows a state in which a large number of LED illumination lamps 10 are arranged in a grid pattern on the ceiling surface via the connecting unit 1 with an indicator lamp shown in FIG. 15 or FIG. In this case, for example, in an emergency, each indicator light of the predetermined connection unit 1 can be blinked or sequentially turned on to be used as a guide light for guiding a person in the building to the evacuation passage (FIG. 18). See arrow). Alternatively, each indicator light can be used as an emergency light.

  When used as an emergency light, the power supply unit in the connection unit 1 is configured to detect power supply stop and to function as an emergency battery when power supply is stopped to supply power to the emergency light. ing. In this case, there is no need to separately provide an emergency battery, so that a connection unit having an emergency light can be realized with a simple configuration.

[Other Example 1]
In the above embodiment, an example in which the power supply unit is attached to the base 2 of the connection unit 1 is shown. However, only the terminal unit is attached to the base 2, and the power supply unit is attached to the base frame 12 of the LED lamp 10. Also good.

[Other Example 2]
In the embodiment, the example in which both the terminal unit and the power supply unit are attached to the base 3 of the connection unit 1 is shown. However, in the present invention, either or both of the terminal unit and the power supply unit are connected to the connection unit 1. The same applies to the case where the cover 5 is attached.

[Other Example 3]
In the embodiment, the wiring cover 6 is attached to the cover 5 of the connection unit 1. However, the wiring cover 6 may be attached to the base 2 of the connection unit 1.

[Other Example 4]
In the above embodiment, the wiring cover 6 is slidably provided on the cover 5 of the connection unit 1 so that the length when the wiring cover 6 is extended can be adjusted. Is not limited to this. The wiring cover 6 may have a telescopic bellows shape, or slide a plurality of wiring covers having different sizes in a nested manner (that is, telescopic type such as a rod antenna or a telescope). The total length may be adjusted by providing it freely.

[Other Example 5]
In the above-described embodiment, the case where the array of the LED lighting lamps 10 to which the connection unit 1 according to the present invention is applied is a grid array is described as an example. However, the present invention can be applied in a radial pattern, a honeycomb pattern, etc. It is applicable to the thing of arbitrary arrangement | sequences. For example, in the case of a honeycomb arrangement, three cutouts may be formed at equal intervals in the cover 5 of the connection unit 1.

[Other Example 6]
In the said Example, although the connection unit was applied to the LED illumination light provided in the ceiling surface, the connection unit by this invention is also applicable to the LED illumination light provided in the wall surface. .

  The present invention is suitable for a connection unit for connecting a plurality of LED lighting lamps.

1, 1a, 1b, 1b ': Connection unit

2: Base

3, 30: Power supply unit

4, 40, 41: Terminal unit

5: Cover

6: Wiring cover

7, 7A, 7B, 7C, 7D: Indicator light

10: LED lighting 11A: LED element

JP 2009-99363 A (see FIGS. 6 and 12)

Claims (7)

A connection unit that is arranged between a plurality of LED lighting lamps and can accommodate a terminal unit for wiring connection between the LED lighting lamps,
A base attached to the mounting surface of the LED lighting ,
A removable base cover covering the base ;
A wiring cover for covering the wiring between the connection unit and the LED lighting lamp with the mounting surface;
Connection unit with. In claim 1,
The terminal unit has a terminal to which a wiring including a power supply line for supplying a power supply current to the LED lighting is connected.
A connection unit characterized by that. In claim 1,
The terminal unit has become so that attached to said base,
A connection unit characterized by that. In claim 1,
The connection unit can further accommodate a power supply unit.
A connection unit characterized by that. In claim 4,
The power supply unit is provided integrally with the terminal unit or detachably on the terminal unit.
A connection unit characterized by that. In claim 1,
The connection unit has an indicator light, a camera or a living body detection sensor.
A connection unit characterized by that. In claim 1,
The wiring cover is provided to be adjustable in length,
A connection unit characterized by that.

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