Source: https://patents.google.com/patent/JP4829755B2/en
Timestamp: 2019-12-08 02:56:31
Document Index: 127900239

Matched Legal Cases: ['art 90', 'arts 18', 'arts 19', 'arts 18', 'arts 19', 'arts 22', 'arts 18', 'arts 19', 'art 19', 'art 19', 'art 20', 'art 21', 'art 23', 'art 24', 'arts 54', 'arts 58', 'arts 60', 'arts 62', 'arts 64']

JP4829755B2 - Light emitting module array display device and light emitting module mounting member - Google Patents
Light emitting module array display device and light emitting module mounting member Download PDF
JP4829755B2
JP4829755B2 JP2006322783A JP2006322783A JP4829755B2 JP 4829755 B2 JP4829755 B2 JP 4829755B2 JP 2006322783 A JP2006322783 A JP 2006322783A JP 2006322783 A JP2006322783 A JP 2006322783A JP 4829755 B2 JP4829755 B2 JP 4829755B2
JP2006322783A
JP2008052237A (en
2006-07-27 Priority to JP2006225855 priority Critical
2006-07-27 Priority to JP2006225855 priority
2006-11-30 Application filed by コトヒラ工業株式会社 filed Critical コトヒラ工業株式会社
2006-11-30 Priority to JP2006322783A priority patent/JP4829755B2/en
2008-03-06 Publication of JP2008052237A publication Critical patent/JP2008052237A/en
2011-12-07 Publication of JP4829755B2 publication Critical patent/JP4829755B2/en
<P>PROBLEM TO BE SOLVED: To provide a light-emitting module array display device the weight of which will not make the device as a whole heavy and facilitates installation and mounting of the display device in a display device of a large screen. <P>SOLUTION: The light-emitting module array display device is provided with a light-emitting module unit 21, made by connecting a plurality of light-emitting modules 14, each of which incorporates a light-emitting diode 26 and an electric circuit part 90 of performing drive control of the light-emitting diode, along one cover cable 16 for power supply; and a grid-shaped sheet member 12, made by arranging long-sized longitudinal sheet parts 18 having a prescribed width and long-sized lateral sheet parts 19, having a prescribed width in a grid shape, wherein the cover cables 16 for power supply of one or more light-emitting module units 21 are disposed, along either of the longitudinal sheet parts 18 or the lateral sheet parts 19, respective light-emitting modules 14 are attached to respective intersection parts 22, where the longitudinal sheet parts 18 and the lateral sheet parts 19 of the grid-shaped sheet member 12 intersect each other, and whereby the light-emitting module units 21 are attached to the grid-shaped sheet member 12. <P>COPYRIGHT: (C)2008,JPO&amp;INPIT
The present invention relates to a light emitting module array display device configured by arranging a plurality of light emitting modules composed of light emitting diodes (LEDs) in a matrix, and an attachment member for the light emitting modules to a lattice sheet member.
Various display devices in which a plurality of light emitting modules are arranged in a matrix have been proposed.
For example, Patent Document 1 proposes a display device in which display LEDs are provided at intersections of a square mesh printed circuit board. This is because a display LED is provided at each intersection of a square mesh printed circuit board, and a control unit corresponding to this is provided on the vertical or horizontal rail of the printed circuit board, and the display LED is arranged in a matrix. The display device is configured by arranging in a shape.
JP-A-2005-345900
The display device proposed in Patent Document 1 is provided with a plurality of display LEDs at a plurality of intersections of a square mesh printed circuit board, and a control unit and a drive unit for driving and controlling each of the display LEDs are printed circuit boards. It is the structure provided in the back surface.
In such a display device, a strong frame for fixing and holding the printed circuit board is required, and particularly when the screen is to be enlarged, the entire display device becomes quite heavy due to the printed circuit board and the frame. There was a problem.
When the weight of the entire display device becomes heavy, there is a problem that installation and installation of the display device become large, and it takes time and effort to install, which is disadvantageous in terms of cost.
The object of the present invention has been made in view of the above-described circumstances, and the object of the present invention is to make the installation and installation of the display device easy without increasing the weight of the entire device when realizing a large screen of the display device. It is to provide a light emitting module array display device and a light emitting module mounting member that can be used.
In order to solve the above-described problems and achieve the object, according to the light emitting module array display device according to the present invention, a light emitting module including a light emitting diode and an electric circuit unit that drives and controls the light emitting diode with an electric signal, A plurality of light emitting module units connected along one power supply coated cable for supplying an electric signal to an electric circuit unit, a long vertical sheet unit having a predetermined width, and a long unit having a predetermined width A horizontal sheet portion and a grid sheet member arranged in a grid pattern, and the power supply covering cable of one or a plurality of light emitting module units is provided on either the vertical sheet portion or the horizontal sheet portion of the grid sheet member. Each light emitting module is attached to each crossing portion where the vertical sheet portion and the horizontal sheet portion of the lattice-shaped sheet member cross each other. Tsu DOO is mounted in a grid sheet member, the light emitting module, and the holding portion for holding the light-emitting module, and a mounting portion for a light-emitting modules sandwiched between sandwiching portion is provided so as to be attachable to the intersecting portion It is attached to the lattice-like sheet member by the mounting member provided, and the sandwiching portion is configured to sandwich the substrate portion from both ends of the substrate portion so as to sandwich the substrate portion that contacts the bottom surface of the light emitting module and the opposite side surfaces of the light emitting module. Two upstanding pieces formed upright in the surface direction of the board portion, and the mounting portion is arranged at a predetermined interval with respect to the back surface of the board portion, and between the back face of the board portion The contact surface is formed so as to sandwich the thickness direction of either the vertical sheet portion or the horizontal sheet portion and to contact both side surfaces in the width direction of either the vertical sheet portion or the horizontal sheet portion. Yield Two holding pieces having a recess and cantilevered so that the front end portion opens between the substrate portion and the both side surfaces of the two holding pieces facing each other are provided as a vertical sheet portion or a horizontal sheet portion. It is characterized by being provided so that it may contact | abut on either side surface of the other width direction .
By adopting this configuration, a plurality of light emitting modules each having an electric circuit portion are connected to a single power supply covering cable to form a light emitting module unit, which is attached to a grid-like sheet member. There is no need, and a light-emitting module array display device that is lighter than conventional ones can be provided.
Further, the light emitting module can be easily held and attached to the lattice-shaped sheet member.
Furthermore, according to this configuration, when either the vertical or horizontal sheet portion is made to enter perpendicularly to the extending direction of the two holding pieces, the sheet portion is stored and held in the storage recess of the holding piece. Thus, the sheet portion cannot move in the width direction. At the same time, by disposing either the vertical or horizontal sheet portion between the two holding pieces, the both side surfaces of the sheet portion come into contact with the opposite side surfaces of the holding piece, so that they can move in the width direction. Disappear. In this way, the attachment member does not move in any direction on the surface of the lattice-shaped sheet member at the intersection of the lattice-shaped sheet member, and also in the direction perpendicular to the surface of the lattice-shaped sheet member. Can be fixed easily and reliably.
The attachment member may be attached to the intersection of the grid sheet members so that the opening side of the holding piece in one light emitting module unit faces a different direction for each light emitting module.
According to this configuration, even when force is applied to the entire light emitting module unit from one direction, the entire light emitting module unit is detached from the lattice-like sheet member because the removal direction is also alternate. Can be prevented.
According to the mounting member of the light emitting module according to the present invention, the lattice sheet member in which the long vertical sheet portion having a predetermined width and the long horizontal sheet portion having a predetermined width are arranged in a lattice shape, An attachment member for attaching a light emitting module including a light emitting diode and an electric circuit portion for driving and controlling the light emitting diode with an electric signal, the sandwiching portion for sandwiching the light emitting module, and the vertical sheet portion of the lattice sheet member, A mounting portion provided so that the light emitting module sandwiched by the sandwiching portion can be mounted at an intersection where the horizontal sheet portion intersects, and the sandwiching portion includes a substrate portion that contacts the bottom surface of the light emitting module; And two standing pieces formed so as to stand from the both end portions of the substrate portion toward the surface of the substrate portion so as to sandwich the opposing side surfaces of the module, and the mounting portion is provided on the back surface of the substrate portion. And sandwiching the thickness direction of either the vertical sheet portion or the horizontal sheet portion with the back surface of the substrate portion, and either the vertical sheet portion or the horizontal sheet portion Two holding pieces that are cantilevered so as to have a storage concave portion formed with a contact surface so as to come into contact with both side surfaces in the width direction, and a tip portion that opens between the substrate portion, It is characterized in that both side surfaces of the two holding pieces facing each other are provided so as to come into contact with both side surfaces in the other width direction of either the vertical sheet portion or the horizontal sheet portion .
Each holding piece may have an insertion hole into which a screw is inserted when screwed to the wall surface.
According to this, the attachment member can be fixed to some wall surface or the like with a screw.
According to the light emitting module array display device according to the present invention, the weight of the entire device can be reduced, and the light emitting module can be easily replaced.
Moreover, according to the attachment member of the light emitting module which concerns on this invention, the light emitting module arrangement | sequence display apparatus using this can be manufactured easily.
Embodiments of a light emitting module array display device of the present invention will be described in detail below with reference to the drawings.
FIG. 1 is a perspective view of the light emitting module array display device as seen from the front side.
The light emitting module array display device 10 is configured by attaching a plurality of light emitting modules 14 to a lattice sheet member 12 in a matrix. Specifically, one power supply coated cable 16 provided with a plurality of light emitting modules 14 is used as the light emitting module unit 21, and the plurality of light emitting module units 21 are attached to the grid-like sheet member 12.
Each light-emitting module 14 needs to receive a light-emitting module control signal and a light-emitting module driving power signal, which are input by a power supply coated cable 16.
The power supply coated cable 16 is connected to the signal generator 20. In the present embodiment, the power supply coated cable 16 is arranged to extend in the vertical direction. An electric signal for driving and controlling the light emitting module 14 is distributed from the signal generator 20 to the plurality of power supply covering cables 16 via the plurality of signal distribution cables 25 and further supplied to the light emitting module 14.
FIG. 2 shows a plan view of the grid sheet member 12.
The lattice-shaped sheet member 12 is formed so that a plurality of vertical sheet portions 18 extending in the vertical direction and a plurality of horizontal sheet portions 19 extending in the horizontal direction are arranged in a lattice shape. The lattice-shaped sheet member 12 is configured such that the periphery is surrounded by a frame-shaped frame member 11.
Moreover, the outer peripheral part of the lattice-shaped sheet member 12 is fixed to the back surface side of the frame member 11,
The lattice-shaped sheet member 12 is stretched with respect to the frame member 11.
A crossing portion 22 is a place where the vertical sheet portion 18 of the lattice-shaped sheet member 12 and the horizontal sheet portion 19 orthogonal to the vertical sheet portion 18 intersect.
The vertical sheet portion 18 and the horizontal sheet portion 19 have the same thickness, and both the front and back surfaces are formed on the same plane. Further, even in the intersecting portion 22 where the vertical sheet portion 18 and the lateral sheet portion 19 overlap, the thickness of the intersecting portion 22 itself is formed to the same thickness as the thickness of both sheet portions.
Such a lattice-like sheet member 12 can be formed by hollowing out a plurality of rectangular openings 23 from a sheet-like acrylic modified high impact vinyl chloride resin.
The acrylic-modified high impact vinyl chloride resin is excellent in high impact, chemical resistance, flame retardancy, moldability, weather resistance, and cold resistance.
Next, the light emitting module 14 will be described with reference to FIG.
The light emitting module 14 is provided with a light emitting diode 26 and an electric circuit section 90 (described later) for driving the light emitting diode 26 in a module case 24.
Further, the module case 24 is filled with a weather resistant filling member so as to mold the electric circuit portion 90 in the module case 24. The light emitting diode 26 is exposed in the light emitting portion without being buried in the weatherproof filling member.
4 and 5 show respective configurations when the light emitting module 14 is disassembled into the module case 24 and the power supply coated cable 16.
A rectangular cutout 28 is formed at the lower end of each of the opposing side walls 26a, 26b of the module case 24 of the light emitting module 14 so as to be cut out in a rectangular shape upward.
The power supply covered cable 16 is inserted into the rectangular cut portion 28.
Further, the side walls 30a and 30b facing each other, which are different from the side wall provided with the rectangular cut portion 28 of the module case 24b, project outward at the upper end and gradually project downward. Engagement convex portions 32 having side surfaces formed in a tapered shape so as to be short and have a protrusion length of 0 at the lower end portion of the side wall are provided.
A flat cable 17 in which four core wires 85 are horizontally arranged in parallel is provided inside the power supply coated cable 16, and a pressure contact connector 70 is attached to the flat cable 17. The pressure contact connector 70 and the flat cable 17 are connected to each other. A resin-molded coated pressure connector 71 is formed.
The pressure contact connector 70 has a connector terminal 72 that is in contact with the core wire 85 of the flat cable 17, and the portion of the connector terminal 72 that is in contact with the core wire 85 is the pressure contact terminal 80, and is opposite to the pressure contact terminal 80. Is provided as a connection plug 36 that is electrically connected to the module case 24 side.
The pressure connector 70 will be described with reference to FIGS.
The press-connecting connector 70 is disposed to face each other, and includes a latch plate 74 and a latch plate 76 that sandwich and arrange the flat cable 17 therein, and a connector terminal 72.
A U-shaped groove (see FIG. 10) for accommodating the four core wires of the flat cable is formed on the surface of the latch plate 74 facing the latch plate 76. A latching claw 78 is formed on the side surface of the latch plate 74, and the latch plate 76 is latched and fixed.
A terminal insertion hole 79 for inserting the press contact terminal 80 of the connector terminal 72 is formed on the surface of the latch plate 76.
The connector terminal will be described with reference to FIGS.
The connector terminal 72 is a metal member in which a rod-shaped connection plug 36 and a pressure contact terminal 80 in which a U-shaped cutout portion 82 is formed are integrally formed. The connection plug 36 and the press contact terminal 80 are shaped to be connected via a terminal holding portion 84 bent in a crank shape.
The terminal holding portion 84 is provided so as to be placed in surface contact with the surface of the latch plate 76, and the connector terminal 72 can be stably provided on the pressure contact connector 70.
A cross section of the pressure contact connector is shown in FIG. 10, and assembly of the pressure contact connector will be described.
The flat cable 17 has a configuration in which four unit cables 87 each composed of a core wire 85 and a core wire covering portion 86 are arranged in parallel.
The flat cable 17 is placed in the U-shaped groove of the latch plate 74, and the latch claw 78 of the latch plate 74 is latched to the latch plate 76.
Then, the press contact terminal 80 of the connector terminal 72 is inserted into the terminal insertion hole 79. When the press contact terminal 80 is inserted toward the flat cable 17, the U-shaped cutout portion 82 cuts the core wire covering portion 86 of the unit cable 87 and contacts the core wire 85. For this reason, the press contact terminal 80 contacts the core wire 85, and the connection plug 36 of the press contact connector 70 and the core wire 85 of the flat cable 17 are brought into electrical conduction.
By the above-described method, the plurality of press-connecting connectors 70 are attached to the flat cable 17 at predetermined intervals, and the press-connecting connector 70 and the flat cable 17 are molded with a resin so as to be integrated by a weather-resistant covering member, and the covering press-connecting is performed. A plurality of connectors 71 are formed.
FIG. 11 shows a connector unit 88 in which a plurality of coated press-connecting connectors 71 are provided on one power supply coated cable 16 in this way. The light emitting module unit 21 is configured by attaching the module case 24 to each of the covering pressure contact connectors 71 of the connector unit 88.
Next, FIG. 12 shows the electric circuit unit 90 provided in the module case 24.
The electric circuit section 90 has a two-layer structure of an upper layer substrate 91 and a lower layer substrate 92, and transmission / reception of signals between the upper layer substrate 91 and the lower layer substrate 92 is performed by interlayer connection pins 94. A circuit pattern is formed on the upper substrate 91, and the light emitting diode 26 and each electronic component are attached on the circuit pattern. A circuit pattern is also formed on the lower layer substrate 92, and each electronic component is also mounted on the circuit pattern.
The electric circuit unit 90 is not limited to one having two layers of substrates, and may be constructed in a single layer or a multilayer of three or more layers.
The electric circuit section 90 having such a configuration has an amplification function, a signal control function, a power supply stabilization function, an oscillation function, a mixing function, and the like, and controls the light emission of the light emitting diode 26 of the light emitting module 14.
As shown in FIG. 13, the electric circuit unit 90 is inserted into the module case 24, and a weather-resistant covering member is poured into the light emitting module 14.
In addition, a connection plug insertion hole 35 is formed in the inner bottom surface 34 of the module case 24 of the light emitting module 14.
The connection plug insertion hole 35 is electrically connected to the electric circuit unit 90. Therefore,
By inserting the connection plug 36 into the connection plug insertion hole 35, the module case 24 is electrically connected to the power supply coated cable 16. A light emitting module control signal, a light emitting module driving power signal, and the like are supplied to the power supply covering cable 16, and these signals are supplied to the light emitting module 14 through the connection plug 36.
Since such a configuration is adopted, the module case 24 can be easily detached from the power supply coated cable 16, and even if there is a problem with a light emitting diode or the like, light emission can be achieved by simply replacing the module case 24. The diode 26 can be replaced.
Next, the attachment member 40 for attaching the light emitting module 14 to the lattice-like sheet member 12 will be described with reference to FIGS.
The attachment member 40 is a metal member having a sandwiching portion 42 that sandwiches the light emitting module 14 and an attachment portion 44 for attaching the light emitting module 14 to the intersecting portion 22 of the lattice-like sheet member 12.
Such an attachment member 40 is formed by processing a steel plate having a thickness of about 0.5 mm by pressing or the like.
The holding portion 42 of the mounting member 40 includes a substrate portion 46 and two standing pieces 48 a and 48 b that stand vertically from both ends of the substrate portion 46 with respect to the surface of the substrate portion 46. The standing piece 48a and the standing piece 48b are provided with substantially rectangular engagement openings 50a and 50b, respectively.
When the light emitting module 14 is sandwiched between the sandwiching portions 42, the engaging convex portions 32 formed on the side surfaces of the module case 24 are inserted into the engaging openings 50a and 50b of the standing pieces 48a and 48b and engaged. For this reason, unless the upright pieces 48a and 48b are deformed in the direction in which they extend, the light emitting module 14 is not detached from the mounting member 40, and the mounting member 40 can reliably hold the light emitting module 14.
In addition, an orthogonal substrate portion 52 extending in a direction orthogonal to the extending direction of the substrate portion 46 is formed at one end of the substrate portion 46. The surface of the orthogonal substrate portion 52 and the surface of the substrate portion 46 are formed in the same plane, and the surfaces of the substrate portion 46 and the orthogonal substrate portion 52 are in contact with the bottom surface of the light emitting module 14 (the bottom surface of the power supply coated cable 16). It becomes a part.
The surface on the opposite side to the side where the upright pieces 48a and 48b of the substrate portion 46 stand (the back surface of the substrate portion 46).
The two holding pieces 54a and 54b are provided at a predetermined interval.
The holding pieces 54 a and 54 b are provided so as to extend from both ends of the orthogonal substrate portion 52 in the same direction as the extending direction of the substrate portion 46, and are cantilevered at a portion connected to the orthogonal substrate portion 52. Yes.
Each of the holding pieces 54 a and 54 b includes a base portion 56 that extends from the orthogonal substrate portion 52 by a predetermined distance in the back surface direction, and a holding portion 58 that extends in the same direction as the extending direction of the substrate portion 46, which is a direction orthogonal to the base portion 56. A front end portion 60 bent in the direction of the substrate portion 46 from the front end of the holding portion 58, and an introduction inclined portion 62 formed so as to be gradually inclined in a direction away from the substrate portion 46 at the front end of the front end portion 60. Have.
The holding portions 58 of the holding pieces 54 a and 54 b are arranged with a predetermined distance A between the holding pieces 54 a and 54 b and the substrate portion 46. The interval A is determined by the length of the base portion 56 and is formed to have substantially the same length as the thickness of the vertical sheet portion 18 or the horizontal sheet portion 19.
In other words, the holding recesses for receiving and holding the vertical sheet portion 18 or the horizontal sheet portion 19 are recessed by the base portion 56, the holding portion 58, and the tip portion 60 of the holding pieces 54 a and 54 b in a direction in which the holding portion 58 is separated from the substrate portion 46. Form. When the vertical sheet portion 18 or the horizontal sheet portion 19 is stored in the storage recess, the base portion 56 that is the inner wall surface of the storage recess and the front end portion 60 abut on the side surface of the vertical sheet portion 18 or the horizontal sheet portion 19. Abutting as a surface, the vertical sheet portion 18 or the horizontal sheet portion 19 is held.
Further, the holding pieces 54a and 54b are arranged with a predetermined interval B therebetween. The interval B is formed to be approximately the same length as the width of the vertical sheet portion 18 or the horizontal sheet portion 19 or slightly longer. In other words, either the vertical sheet portion 18 or the horizontal sheet portion 19 of the lattice-shaped sheet member 12 is disposed between them.
Then, the state which attached the attachment member 40 to the grid | lattice-like sheet member 12 is shown in FIGS.
Here, since the vertical sheet portion 18 is held by the holding pieces 54a and 54b, the longitudinal direction of the vertical sheet portion 18 is a direction orthogonal to the extending direction of the holding pieces 54a and 54b, and the horizontal sheet portion 19 is the holding piece. The mounting member 40 is disposed with respect to the lattice-shaped sheet member 12 so as to be disposed in the gap between the 54a and the holding piece 54b.
When the vertical sheet portion 18 is to enter the holding portion 58 from the introduction inclined portion 62 of the holding pieces 54a and 54b, the holding pieces 54a and 54b are opened on the introduction inclined portion 62 side due to the spring property of the base portion 56, and the vertical sheet. The portion 18 enters between the holding pieces 54a and 54b and the substrate portion 46 and is held immovably by being housed in the housing recess.
Moreover, the horizontal sheet | seat part 19 is arrange | positioned between holding pieces 54a and 54b.
The width of the horizontal sheet portion 19 is formed to be slightly shorter than the interval between the holding pieces 54a and 54b. However, even if the lattice sheet member 12 is moved in the horizontal direction, both side surfaces of the horizontal sheet portion 19 are held. Since they abut against the opposing side surfaces of the pieces 54a, 54b, they are provided so as not to move in the width direction of the lateral sheet portion 19.
Further, as shown in FIG. 21, the mounting direction of the mounting member 40 may be configured such that the opening sides of the holding pieces 54 a and 54 b are staggered with respect to one light emitting module unit.
That is, the opening sides of the holding pieces 54a and 54b of the mounting member 40 are staggered, so that when the mounting member 40 is mounted on the lattice-shaped sheet member 12, the mounting directions are different one by one. For this reason, even when a force is applied to the entire light emitting module unit from one direction, it is possible to prevent the entire light emitting module unit from being detached because the removal directions are alternate.
FIG. 22 shows a second embodiment of the light emitting module array display device of the present invention. In addition, the same code | symbol is attached | subjected about the component same as embodiment mentioned above, and description may be abbreviate | omitted.
Unlike the above-described embodiment, the present embodiment is different in that no frame member is provided on the outer periphery of the lattice-shaped sheet member 12.
The light emitting module array display device 10 of the present embodiment can be fixed by fixing the uppermost horizontal sheet portion 19a to a wall, a column, a beam, or the like.
FIG. 23 shows a third embodiment of the light emitting module array display device of the present invention. In addition, the same code | symbol is attached | subjected about the component same as embodiment mentioned above, and description may be abbreviate | omitted.
Unlike the above-described embodiment, the present embodiment is different in that the power supply covered cable 16 is disposed along the lateral sheet portion 19 of the lattice-shaped sheet member 12. Therefore, the mounting direction of the mounting member 40 is also set so that the opening side of the holding pieces 54a and 54b faces downward or upward, and the vertical sheet portion 18 is disposed between the holding pieces 54a and 54b. Like that.
FIG. 24 shows a fourth embodiment of the light emitting module array display device of the present invention. In addition, the same code | symbol is attached | subjected about the component same as embodiment mentioned above, and description may be abbreviate | omitted.
In the present embodiment, the power supply coated cable 16 is disposed along the lateral sheet portion 19 of the lattice-shaped sheet member 12, and no frame member is provided on the outer peripheral portion of the lattice-shaped sheet member 12. The point is a feature.
The light emitting module array display device 10 of the present embodiment can also be fixed by fixing the uppermost horizontal sheet portion 19a to a wall, a column, a beam or the like.
In each embodiment mentioned above, the attachment member 40 of the light emitting module concerning this invention was demonstrated on the assumption that it attaches to a grid | lattice-like sheet member. However, even when the grid-like sheet member 12 is not used, it may be necessary to fix the light emitting module unit 21 at any location.
Each holding portion 58 of the holding pieces 54a and 54b is formed with an insertion hole 64 for inserting a screw when screwing or the like is performed.
For example, as shown in FIG. 25, when it is desired to fix the attachment member 40 to the wall surface 98 or the like, the screw 96 is inserted into the insertion hole 64 so that the screw head 97 is disposed between the holding portion 58 and the substrate portion 46. The mounting member 40 can be fixed to the wall surface 98 or the like by inserting the screw 96.
Here, as shown in the figure, the screw head 97 is sized so that it can be stored in the storage recesses (between the holding portion 58 and the substrate portion 46) of the holding pieces 54a and 54b. The light emitting module 14 can be securely attached to the mounting member 40 without interference.
For example, in each of the above-described embodiments, the light emitting module array display device including a total of 16 light emitting modules of 4 vertical by 4 horizontal has been described, but M × 1, 1 × N, M × It goes without saying that the case of N (M and N are natural numbers) is also included.
In each of the above-described embodiments, the case of a light emitting module including one light emitting diode has been described. However, in the case of a light emitting module including a plurality of light emitting diodes, for example, light emission of various colors can be realized. For example, it goes without saying that the present invention can also be applied to a light emitting module including three or more light emitting diodes such as a red light emitting diode, a green light emitting diode, and a blue light emitting diode.
It is the perspective view which looked at the light emitting module arrangement display device of a 1st embodiment from the front. It is a top view of a lattice-like sheet member. It is a perspective view of a light emitting module. It is the perspective view which looked at the module case from the bottom. It is a perspective view of the covering cable for electric power feeding. It is a perspective view of a pressure contact connector. It is a top view of a pressure contact connector. It is a front view of a connector terminal. It is a side view of a connector terminal. It is sectional drawing which looked at the press-contact connector from the side surface. It is a perspective view which shows the connector unit with which the press-contact connector was connected to the covering cable for multiple electric power feeding. It is a perspective view of an electric circuit part. It is a perspective view which shows the place which has arrange | positioned the electric circuit part in the module case. It is the perspective view which looked at the attachment member of this embodiment from the back surface side of the board | substrate part. It is the perspective view which looked at the attachment member from the surface side of the board | substrate part. It is a top view of an attachment member. It is a side view of an attachment member. It is a perspective view which shows the place which attached the light emitting module to the cross | intersection part with the attachment member. It is a top view which shows the place which attached the light emitting module to the cross | intersection part by the attachment member. It is a side view which shows the place which attached the light emitting module to the cross | intersection part by the attachment member. It is explanatory drawing which shows the place which changed the direction of the holding piece of the some attachment member in a light emitting module unit alternately. It is the perspective view which looked at the light emitting module arrangement display device of a 2nd embodiment from the front. It is the perspective view which looked at the light emitting module arrangement | sequence display apparatus of 3rd Embodiment from the front. It is the perspective view which looked at the light emitting module arrangement | sequence display apparatus of 4th Embodiment from the front. It is a side view which shows the place which attached the attachment member to the wall surface etc.
DESCRIPTION OF SYMBOLS 10 Light emitting module arrangement | sequence display apparatus 11 Frame member 12 Lattice-like sheet member 14 Light emitting module 16 Power supply covering cable 17 Flat cable 18 Vertical sheet part 19 Horizontal sheet part 20 Signal generating part 21 Light emitting module unit 22 Crossing part 23 Rectangular opening part 24 Module Case 25 Signal distribution cable 26a, 26b Side wall 26 Light emitting diode 28 Rectangular cut portion 30a, 30b Side wall 32 Engaging projection 34 Internal bottom surface 35 Connection plug insertion hole 36 Connection plug 40 Mounting member 42 Holding portion 44 Mounting portion 46 Substrate portion 48a 48b Standing pieces 50a, 50b Engaging openings 52 Orthogonal substrate parts 54a, 54b Holding pieces 56 Base parts 58 Holding parts 60 Tip parts 62 Introducing inclined parts 64 Insertion holes 70 Pressure contact connectors 71 Covering pressure contact connectors 72 Connector terminals 74 Plate 76 Catch plate 78 Latch claw 79 Terminal insertion hole 80 Pressure contact terminal 82 U-shaped notch 84 Terminal holding portion 85 Core wire 86 Core wire covering portion 87 Unit cable 88 Connector unit 90 Electrical circuit portion 91 Upper layer substrate 92 Lower layer substrate 94 Interlayer Connection pin 96 screw 97 screw head 98 wall surface
A light emitting module including a light emitting diode and an electric circuit unit that drives and controls the light emitting diode with an electric signal is connected to a plurality of power supply coated cables that supply the electric signal to the electric circuit unit. A module unit;
A long sheet sheet having a predetermined width and a long horizontal sheet part having a predetermined width are provided in a lattice-like sheet member arranged in a lattice pattern,
One or a plurality of light-emitting module unit power supply covered cables are arranged along either the vertical sheet portion or the horizontal sheet portion of the lattice-shaped sheet member, and each light-emitting module is arranged horizontally with the vertical sheet portion of the lattice-shaped sheet member. The light emitting module unit is attached to the lattice sheet member by being attached to each intersection where the sheet portion intersects ,
Each light emitting module is attached to the lattice-like sheet member by an attachment member that includes a sandwiching portion that sandwiches the light emitting module and a mounting portion that is provided so that the light emitting module sandwiched by the sandwiching portion can be attached to the intersection. And
The sandwiching portion includes a substrate portion that is in contact with the bottom surface of the light emitting module, and two standing pieces that are formed upright from both ends of the substrate portion toward the surface of the substrate portion so as to sandwich the opposing side surfaces of the light emitting module. Have
It is arranged at a predetermined interval with respect to the back surface of the substrate portion, sandwiches the thickness direction of either the vertical sheet portion or the horizontal sheet portion with the back surface of the substrate portion, and the vertical sheet portion or the horizontal sheet. Two holdings each having a storage recess formed with a contact surface so as to contact both side surfaces in the width direction of one of the portions, and cantilevered so that the front end portion opens between the substrate portion A piece is provided,
2. A light emitting module array display device, wherein two opposite side surfaces of two holding pieces are provided so as to abut on either side surface in the other width direction of either the vertical sheet portion or the horizontal sheet portion.
The mounting member has an opening side of the holding piece in one light emitting module unit, light emission according to claim 1, characterized in that attached to the intersections of the grid-shaped sheet member so as to face different directions for each light emitting module Module array display device.
A light emitting diode and a light emitting diode are driven and controlled by an electric signal on a lattice sheet member in which a long vertical sheet portion having a predetermined width and a long horizontal sheet portion having a predetermined width are arranged in a lattice shape. An attachment member for attaching a light emitting module containing an electric circuit part,
A clamping part for clamping the light emitting module;
A mounting portion provided so that the light emitting module sandwiched by the sandwiching portion can be attached to the intersecting portion where the vertical sheet portion and the lateral sheet portion of the lattice sheet member intersect ;
An attachment member for a light emitting module, characterized in that two opposite side surfaces of two holding pieces are provided so as to abut on either side surface in the other width direction of either the vertical sheet portion or the horizontal sheet portion .
4. The light emitting module mounting member according to claim 3 , wherein each holding piece has an insertion hole into which a screw is inserted when screwed to a wall surface.
JP2006322783A 2006-07-27 2006-11-30 Light emitting module array display device and light emitting module mounting member Active JP4829755B2 (en)
JP2006225855 2006-07-27
JP2006322783A JP4829755B2 (en) 2006-07-27 2006-11-30 Light emitting module array display device and light emitting module mounting member
JP2008052237A JP2008052237A (en) 2008-03-06
JP4829755B2 true JP4829755B2 (en) 2011-12-07
ID=39236308
JP2006322783A Active JP4829755B2 (en) 2006-07-27 2006-11-30 Light emitting module array display device and light emitting module mounting member
JP (1) JP4829755B2 (en)
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