JP2010003664A - Lamp unit and illumination device using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lamp unit capable of preventing light source breakage and electric shock when mounting the lamp unit, and an illumination device using the lamp unit. <P>SOLUTION: In this lamp unit 70, the rear face of a flat-face type discharge tube 76 to emit light from the front face is arranged on an inner face of a chassis 71 via a double-sided tape, and a lens 77 which covers a front face side of the flat-face type discharge tube 76 and has translucency is fixed to and installed on a side face of the chassis 71. Moreover, the illumination device is made by mounting a cover 101 on this lamp unit 70. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a lamp unit and an illuminating device using the same, for example, a lamp unit mounted on various products for home use, business use, industrial use, etc., and used as a light emitting element for the illuminating device, and illumination using the same. Relates to the device.

  Conventionally, a flat lighting device disclosed in Patent Document 1 (see FIG. 21) and a lighting fixture base disclosed in Patent Document 2 or Patent Document 3 (see FIGS. 22 and 23) are known. In these flat lighting devices and lighting fixture bases, a flat discharge tube and a circuit board for lighting electrically connected to the flat discharge tube are attached to the chassis so that they are thin and easy to handle. A lamp unit that functions as a simple module.

<Planar discharge tube>
Here, the flat discharge tube disclosed in Patent Documents 1 to 3 will be described. As shown in FIG. 24, the flat discharge tube 50 has a pair of glass plates 54a and 54b as dielectric plates facing each other, and a sealing member 53 is used as a periphery to enclose a sealed space 57 (discharge space). A closed container is formed, and a discharge gas such as a rare gas is sealed in this space through a supply / exhaust pipe 56. A plurality of dielectric ribs 55 are provided in the sealed space 57. A pair of thin film-like transparent electrodes 51a and 51b are provided on both outer surfaces of the sealed container. The pair of lead wires 52a and 52b are connected and fixed to the pair of transparent electrodes 51a and 51b via the conductor connecting portions 53a and 53b. A thin-film reflecting member (not shown) is provided on the upper surface of one transparent electrode 51b. The light emitting surface S (surface) from which light is emitted from the flat discharge tube 50 is used. In the embodiment described later, the light emitting surface side S is the surface side.

  The flat discharge tube 50 has advantages such as higher brightness than a thin light emitter using an organic EL or a light guide plate, and uniform light emitted from the light emitting surface S. In addition, it has various advantages over conventional fluorescent lamps, such as excellent low-temperature characteristics as a light source and not using mercury as a discharge gas. For this reason, when applied to a lamp unit, the applicable range is very large.

JP 2007-188772 A Design Registration Gazette No. 1287399 Design Registration Gazette No. 1287854

In the conventional lamp unit (base for lighting fixture) as shown in FIG. 22 and FIG.
Since the unit itself is a subject of transaction and the surface of the flat discharge tube is exposed for transportation and storage, a cover for preventing the flat discharge tube from being damaged was separately required.

  In addition, when performing the work of attaching and fixing the lighting fixture base to the ceiling or wall surface using screws, it is necessary to perform bolting work across the flat discharge tube. There is a risk that the tool contacts the flat discharge tube and the flat discharge tube is damaged.

  In addition, when the thin film-like transparent electrode formed on the surface side of the flat discharge tube is on the high-pressure side, there is a problem that an electric shock may occur if the lamp unit is touched accidentally. Therefore, if the front side of the flat discharge tube is set to the low pressure side, the back side is necessarily the high pressure side. Since the thin film electrode is also arranged on the back side of the flat discharge tube, the thin film electrode is electrically connected to the chassis (made of metal). In other words, even in this case, there is a risk of electric shock if the metal chassis is touched by mistake. Although it is conceivable to insulate the chassis as a resin, there arises a new problem that heat radiated from the flat discharge lamp is hardly radiated through the chassis.

  Accordingly, an object of the present invention is to provide a lamp unit capable of preventing the light source (planar discharge tube) from being damaged when the lamp unit is mounted, and an illumination device using the lamp unit. In addition to this, an object of the present invention is to provide a lamp unit capable of suitably radiating heat radiated from a flat discharge and preventing an electric shock when the lamp unit is mounted, and an illumination device using the lamp unit. And

Of the present invention, the lamp unit according to claim 1 is:
A lamp unit in which the back surface of the thin luminescent material that emits light from the front surface is disposed on the inner surface of the housing with the adhesive layer directly or in close contact with the back surface,
While providing a lens having translucency so as to cover the surface side of the thin light emitter,
The lens is fixedly installed on the casing.

  According to the present invention, since the thin light emitter is covered with the lens, the thin light emitter can be prevented from being damaged during transportation or mounting of the lamp unit. Normally, the lens is usually attached to the cover side, but in the present invention, a protective member such as a cover is separately required in the process of distributing the lamp unit to be traded by attaching to the lamp unit. Never become.

In addition to the lamp unit according to claim 1, the lamp unit according to claim 2 is
The member constituting the inner surface of the housing is a heat radiating member,
When the back surface of the thin light-emitting body is disposed on the inner surface of the housing via a bonding agent, the bonding agent is a heat conductive member.

  According to this invention, since the back surface of the thin light-emitting body is disposed on the heat dissipation member that is the inner surface of the housing with the heat-conductive adhesive layer interposed therebetween or directly in close contact with the back surface, Since the heat radiated from the body can be transmitted to the heat radiating member by heat conduction, it can be radiated suitably, and as a result, the surface temperature of the thin light-emitting body can be lowered. As a result, even if the surface of the thin light-emitting body is touched, there is no concern about burns or the like, and safety can be maintained.

Moreover, in addition to the lamp unit in any one of Claims 1-2, the lamp unit of Claim 3 is
The thin light emitter is a flat discharge tube,
The lens includes a protective cover for covering the air supply / exhaust tube of the planar discharge tube.
It is characterized by that.

  According to the present invention, it is possible to prevent damage to the air supply / exhaust tube of the flat discharge tube when the lamp unit is transported or mounted.

  In addition, when a flat discharge tube having a thin film electrode formed on the outer surface is used, if the thin film electrode on the light emitting surface side is on the high voltage side, there is a risk of electric shock if the heat radiation member is touched by mistake. is there. According to the present invention, since the lens is provided, a person cannot accidentally directly touch the thin film electrode of the flat discharge tube, thereby preventing an electric shock accident.

  In addition, the flat discharge tube has advantages such as higher brightness than a thin light emitter using an organic EL or a light guide plate, and uniform light emitted from the light emitting surface. There exists an advantage that it can utilize for the lamp unit as one component of various illuminating devices. In addition, it has various advantages compared to conventional fluorescent lamps, such as excellent low-temperature characteristics as a light source and the absence of mercury in the discharge gas. The application range is very large.

In addition to the lamp unit according to claim 3, the lamp unit according to claim 4 is
A thin film electrode is formed on the back surface of the flat discharge tube, and the thin film electrode is on the low voltage side of the voltage applied to the flat discharge tube.

  Since the back surface of the flat discharge tube is in contact with the surface of the heat radiating member, this thin film is formed when a metal plate is used as the heat radiating member and a thin film electrode is formed on the outer surface. The electrode and the heat dissipating member are electrically connected. At this time, if the thin film electrode is on the high voltage side, there is a risk of electric shock if the heat dissipation member is touched by mistake. According to the present invention, by setting the thin-film electrode of the flat discharge tube on the surface side in contact with the heat radiating member to the low pressure side, it is possible to prevent electric shock even if a person accidentally touches the heat radiating member. it can.

  In addition, if a leakage current occurs, flickering occurs in the lighting state of the flat discharge tube, and it is necessary to suppress this leakage current as much as possible. According to the present invention, the leakage current can be suppressed as much as possible by setting the thin-film electrode side of the flat discharge tube in contact with the surface of the heat radiating member (the inner surface of the housing) to the low pressure side.

Moreover, the illumination device according to claim 5 is:
A lamp unit according to any one of claims 1 to 4,
A lighting circuit for lighting the light emitter provided inside or outside the lamp unit of the lamp by being electrically connected to the thin light emitter,
A cover body covering the lamp unit;
Is provided.

  According to the present invention, it is possible to configure a lighting device as a finished product by connecting a lighting circuit to the lamp unit and providing a cover body.

  According to the lamp unit of the present invention and the lighting device using the lamp unit, it is possible to provide a lamp unit capable of preventing the light source from being damaged when the lamp unit is mounted, and a lighting device using the lamp unit. . In addition to this, it is possible to provide a lamp unit capable of preventing an electric shock when the lamp unit is mounted and a lighting device using the lamp unit.

(First embodiment)
FIGS. 1-9 is the figure which showed the lamp unit as a base for lighting fixtures of the 1st Embodiment in this invention, and the illuminating device incorporating this. 1 is a perspective view of the lamp unit 70, FIG. 2 is a front view, right side view, left side view, plan view, bottom view and rear view of the lamp unit 70, and FIG. 3 is a plan view shown in FIG. FIG. 4 is an enlarged sectional view taken along the line BB in the plan view shown in FIG.

  FIG. 5 is a perspective view of the illumination device 100 configured using the lamp unit 70, and FIG. 6 is a front view, a right side view, a left side view, a plan view, and a bottom view of the illumination device 100. 7 is an exploded perspective view of the lighting device 100. FIG. 8 is a front view, right side view, left side view, plan view, and bottom view of the chassis 71. FIG. 9 is a front view of the cover 101. It is a right side view, a left side view, a plan view, and a bottom view. 6, 8, and 9, the back view is omitted because it appears symmetrically with the front view.

<Lamp unit>
The lamp unit 70 as a base for a lighting fixture is composed of main parts of a chassis 71, a flat discharge tube 76, a lighting circuit board 75, and a lens 77 (see FIG. 7). A chassis 71 made of a substantially long metal thin plate is provided with chassis walls 71a and 71a which are vertically bent on both sides in the short direction, and the chassis walls 71a and 71a have a plurality of locking holes 71b and a pair. Slits 71c and 71c are formed (see FIG. 7).

  Between the back surface (surface opposite to the light emitting surface S) 76a of the flat discharge tube 76 and the inner surface 71e of the chassis 71, a heat conductive double-sided tape (bonding agent) for connecting and fixing these surfaces. ) 73 is interposed. Examples of the bonding agent include a heat conductive epoxy adhesive such as a trade name Scotch Weld EW2070 manufactured by 3M Company, and a heat conductive double-sided tape. Here, the chassis 71 is configured as a heat radiating member, and is made of a metal material having a high thermal conductivity such as aluminum, copper, or brass.

  Between the back surface 75 b of the lighting circuit board 75 and the inner surface 71 e of the chassis 71, a PET (polyethylene terephthalate) substrate fixing sheet 74 and an insulating sheet 72 are interposed. The insulating sheet 72 is positioned by engaging with a pair of dowels 71 d and 71 d formed in the chassis 71 in a pair of engaging holes 72 a and 72 a opened in the insulating sheet 72. Thereafter, a substrate fixing sheet 74, which is a double-sided tape, is affixed to the inner surface 71e of the chassis 71 so as to fit within the rectangular hole 72b formed in the insulating sheet 72, and a back surface 75b is affixed to the lighting circuit substrate 75 ( (See FIG. 7). Various circuit components and circuit patterns (not shown) are formed on the surface 75a of the lighting circuit component 75a, and the flat discharge tube 76 and the lighting circuit board 75 are connected via lead wires ( (Not shown) are electrically connected. Further, the pair of insulating pieces 72c and 72c formed on both sides of the insulating sheet 72 includes a component such as a transformer installed on the side of the book surface 75a of the lighting circuit board 75 and a chassis wall 71a adjacent thereto. It is provided to ensure insulation. Further, the thin film-like transparent electrode side formed on the surface of the flat discharge tube 76 is connected to the chassis 71 with the thin-film electrode side formed on the back side as the low-pressure side, and the minus side of the lighting fixture Installed as.

  The translucent box-shaped lens 77 covers the surface 76b of the flat discharge tube 76 fixed to the chassis 71 via the double-sided tape 73 so as to cover the inner space of the lens 77. The plurality of locking claws 77c formed on the pair of side wall surfaces 77b, 77b in the longitudinal direction are fixed by being locked in locking holes 71b provided in the chassis wall 71a (see FIG. 3). The lamp unit 70 (see FIGS. 1 and 2) is completed by the assembly process so far, and in this state, the screw holes 71f opened at the four corners of the bottom surface of the chassis 71 are used to screw the ceiling unit or the wall. Fixed using etc. When the power supply is connected and the switch 75 c is turned on, uniform light is emitted from the surface 76 b of the flat discharge tube 76, and light is irradiated to the external space through the surface of the lens 77.

<Lighting device>
The lighting device 100 is completed by attaching the cover 101 to the lamp unit 70. That is, the upper surface 101a of the cover 101 is formed with a lens rectangular hole 101b into which the upper surface 77d of the lens 77 is fitted, and a switch forming hole 101c for attaching the switch knob 78 from the lower surface. A plurality of positioning ribs 101 d for positioning the upper surface 77 d of the lens 77 and a pair of auxiliary rails 101 e for fixing the cover 101 main body to the chassis 71 are provided on the inner side surface of the cover 101. The pair of auxiliary rails 101e are locked and temporarily fixed by inserting them into a pair of slits 71c provided in the chassis wall 71a obliquely from above, and screws 101g are inserted into fixing holes 101f opened on the other end side of the cover 101. And screwed into the chassis-side female screw 71g. Thereafter, the cap 101h is placed on the cover 101 to cover and cover the screw 101g. In this way, the mounting of the lighting device 100 is completed (see FIGS. 7 and 9).

  As shown in FIG. 10, the auxiliary rail 101e is composed of a ridge formed by a rectangular parallelepiped provided on the inner surface of the side wall of the cover 101, and is inclined by an inclination angle θ1 toward the side where components such as the lighting circuit board 75 are installed. Is provided. The slit 71c has a width that is slightly larger than the width of the auxiliary rail 101e, and the holding angle θ2 is the same as the inclination angle θ1. In the present embodiment, θ1 = θ2 = −45 ° (clockwise direction is defined as +), which is most preferable. However, it can be realized even in the range of −50 ° to −30 °.

  In the state where the cover 101 is incorporated, the side surface 101ea of the auxiliary rail 101e is fixed by coming into contact with and in surface contact with the side surface 71ca of the slit 71c. Here, when it is attempted to forcefully lift and remove only the other end side of the cover 101 (the side fixed by the screw 101g is the base end side), the other side surface 101eb of the auxiliary rail 101e is Since the locked state is maintained by contacting and making contact with the other side surface 71cb of the slit 71c, a gap is not easily formed between the cover 101 and the chassis 71, and the cover is not easily removed. ing.

  As shown in FIG. 25, in the conventional lighting device 200, there are the following methods as a pattern for attaching the cover 201 to the housing 202. As a first method, a locking claw 202b is provided on the outer surface of the side wall of the casing 202, and the locking claw 202b is locked in a locking hole 201a opened in the side wall of the cover 201. The cover 201 is fixed. Alternatively, as a second method, the locking claw 201b is provided on the inner surface of the side wall of the cover 201, and the locking claw 201b is locked in the locking hole 202a opened in the side wall of the casing 202, thereby A cover 201 is fixed to 202. Both methods use the elastic deformation of both or any one of the parts when covering the cover 201 on the housing 202, and after completion of the locking, each part is elastically restored and maintains its original shape. Is used.

  However, if the cover 201 is removed many times for repair or the like, the elastic recovery of these parts may not be maintained. In particular, in the case of being mounted on an automobile, the lighting device is installed on the ceiling. Therefore, the cover 201 may be removed due to vibration during driving of the automobile, and the cover 201 may fall due to its own weight.

  However, since the lighting device of this embodiment does not employ the locking structure with elastic deformation as described above, it is not necessary to consider the secular change in the attachment and detachment of the cover 201, and a reliable locking state is ensured. can do. Further, even if the screw 101g is loosened due to vibration during driving of the vehicle, the screw 101g is suppressed by the cap 101h and does not come off completely, so that the auxiliary rail 101e and the slit 71c are locked. Since it is still kept, the cover will not fall.

(Operation and effect of the first embodiment)
From the above configuration, the following actions and effects can be grasped.
(1) By providing the flat discharge tube 76 on the surface 71e side of the chassis 71 and providing the lighting circuit board 75 on the surface 71a side of the chassis 71, a compact and thin lamp unit can be obtained.

(2) Since the back surface of the flat discharge tube 76 as a thin light-emitting body is disposed on the surface 71e of the chassis 71 as a heat radiating member via a heat conductive bonding agent 73, the flat discharge tube 76 Since the radiated heat can be transmitted to the chassis 71 by heat conduction, it can be radiated suitably, and as a result, the surface temperature of the flat discharge tube 76 can be lowered. As a result, even if the surface of the thin light-emitting body is touched, there is no concern about burns or the like, and safety can be maintained.

(3) The lighting circuit board 12 is disposed on the surface 71e side of the chassis 11 as a heat radiating member, and the mounting member (PET (polyethylene terephthalate) substrate fixing sheet 74 and insulating sheet 72) as separate parts on the chassis 71. Therefore, it is possible to prevent heat radiated from the flat discharge tube 76 to the chassis 71 from being directly transmitted to the lighting circuit board 72 by heat conduction and to ensure insulation. Can do. . As a result, it is possible to prevent the temperature rise of the circuit components 12a, 12b, 12c, and 12d arranged on the lighting circuit board 12, and it is possible to prevent malfunctions and keep the life of the circuit components long.

(4) A lens 77 is attached to the lamp unit 70 as a base for a lighting fixture. In the conventional lighting fixture base (see FIG. 22 and FIG. 23), when performing the work of mounting and fixing the lighting fixture base on the ceiling or wall surface using screws, the bolting operation straddles the flat discharge tube. There is a risk that tools such as a screwdriver and a wrench may come into contact with the flat discharge tube and be damaged if handled in a messy manner. According to this configuration, since the lens 77 covering the flat discharge tube is attached to the lamp unit, even if a tool such as a driver or a wrench comes into contact with the lens 77 by mistake, the flat discharge tube which is a light source is contacted and damaged. Can be prevented. In this type of lighting device, usually, the lens is often attached to the cover side in advance. In this configuration, the lens and the cover are separated and attached to the chassis side so as to cover the flat discharge tube. Further, since the thin film-like transparent electrode formed on the surface side of the flat discharge tube 76 is on the high voltage side, there is a problem that an electric shock is caused if the lamp unit 70 is touched accidentally. However, since the lamp unit 70 is assembled to the ceiling or the like with the lens 77 attached, the surface 76b of the flat discharge tube 76 is not directly touched and is safe.

(5) The thin film-like transparent electrode side formed on the surface of the flat discharge tube 76 is connected to the chassis 71 with the high-voltage side as the thin-film electrode side formed on the back side, and the minus of the lighting fixture. Installed as side. Since the surface on the high pressure side of the flat discharge tube 76 is covered with the lens 77 as described in the above (4), it is not directly touched by a person and there is no electric shock. Moreover, since the back side is a low voltage | pressure side, even if it touches a chassis accidentally, there is no electric shock. In addition, if a leakage current occurs, flickering occurs in the lighting state of the flat discharge tube. Therefore, it is necessary to suppress this leakage current as much as possible, but a plane that contacts the surface of the heat radiating member (the inner surface of the housing). As a result, the leakage current can be suppressed as much as possible because the thin film electrode side of the discharge tube is the low pressure side.
(6) Since a plurality of positioning ribs 101d for positioning the upper surface 77d of the lens 77 are provided on the inner side surface of the cover 101, when the lighting device 100 is assembled, the lens is positioned and the lens is fitted. Therefore, it can be easily mounted.

(7) When the lighting device 100 is assembled by attaching the cover 101 to the lamp unit 70, by inserting the pair of auxiliary rails 101e provided on the cover 101 into the pair of slits 71c provided on the chassis wall 71a from obliquely above. It was locked and temporarily fixed, and the screw 101g was passed through the fixing hole 101f opened on the other end side of the cover 101 and screwed into the chassis side female screw 71g to be fixed. According to this configuration, since the auxiliary rail 101e and the slit 71c are inclined with respect to the inner surface of the chassis 71, the cover does not come off after the fixing with the screw 101g is completed. Further, as compared with the case where screws are fixed to both ends, it is possible to save screws, and it is not necessary to take a necessary space in the screw mounting portion, so that a compact lighting device can be provided. The angle formed between the auxiliary rail 101d and the slit 71c and the inner surface (horizontal plane) of the chassis 71 is 45 degrees (when the angle is measured from the horizontal plane on the side where the lighting circuit board 75 or the like is mounted). Is preferred. Conventionally, this type of lighting device has been required to have a compact configuration, particularly because of the requirement to be installed in a narrow space such as a passenger car. In addition, there is a problem that it is desired to reduce the number of component parts as much as possible while maintaining the same performance as the conventional one.

(Second Embodiment)
FIGS. 11-19 is the figure which showed the lamp unit as a base for lighting fixtures of the 2nd Embodiment in this invention, and the illuminating device incorporating this. 11 is a perspective view of the lamp unit 70, FIG. 12 is a front view, a right side view, a left side view, a plan view, a bottom view and a rear view of the lamp unit 70 ′, and FIG. 13 is a plan view shown in FIG. FIG. 14 is an enlarged BB sectional view in the plan view shown in FIG. 12.

  FIG. 15 is a perspective view of an illumination device 100 ′ configured using the lamp unit 70 ′, and FIG. 16 is a front view, a right side view, a left side view, a plan view, and a bottom view of the illumination device 100 ′. It is. 17 is an exploded perspective view of the illumination device 100 ′, FIG. 18 is a front view, right side view, left side view, plan view, and bottom view of the chassis 71 ′, and FIG. 19 is a view of the cover 101 ′. It is a front view, a right side view, a left side view, a plan view, and a bottom view. 16, 18, and 19, the rear view is omitted because it appears symmetrically with the front view.

  Since the second embodiment is equivalent in basic configuration to the first embodiment, substantially the same components are described in the drawings (see FIGS. 1 to 9) showing the first embodiment. It is the same as a certain code | symbol, and a new code | symbol is attached | subjected only to the different part (refer FIGS. 11-19).

  In the present embodiment, a pair of chip protection covers 77e and 77e are provided at both ends of the lens 77 in the longitudinal direction. This is provided to protect the air supply / exhaust tubes 76c and 76c provided at both ends of the flat discharge tube 76 in the longitudinal direction. When attaching the lamp unit 100 ′ according to the present embodiment to a wall, ceiling, or the like, an accident in which an installation tool such as a driver or a ratchet is accidentally touched and damaged to the air supply / exhaust pipes 76 c and 76 c of the flat discharge tube 77. This can be prevented beforehand.

  In the present embodiment, a pair of auxiliary rails 101 ′ for fixing the cover 101 main body to the chassis 71 are provided. The auxiliary rail 101'e is different from the auxiliary rail 101e of the first embodiment in that the inclination direction with respect to the vertical plane is opposite. The pair of auxiliary rails 101′e is temporarily fixed by being engaged with a chassis inclined portion 71′c provided on one end side of the chassis wall 71a, and is fixed to a fixing hole 101f opened on the other end side of the cover 101. The screw 101g is passed through and screwed into the chassis side female screw 71g. Thereafter, the cap 101h is placed on the cover 101 to cover and cover the screw 101g. In this way, the attachment of the illumination device 100 'is completed (see FIGS. 17 and 19).

  As shown in FIG. 20, the auxiliary rail 101 ′ e is configured by a ridge formed by a rectangular parallelepiped provided on the inner surface of the side wall of the cover 101, and is inclined to the side opposite to the side on which components such as the lighting circuit board 75 are installed. Inclined by an angle θ3. The holding angle θ4 of the inclined surface 71′ca of the chassis inclined portion 71′c is the same angle as the inclination angle θ3. In this embodiment, [theta] 3 = [theta] 4 = 45 [deg.] (Clockwise direction is defined as +) is most preferable, but it can be realized even when it is 30 [deg.]-50 [deg.].

  In the state where the cover 101 ′ is incorporated, the side surface 101 ea of the auxiliary rail 101 ′ e is fixed by coming into contact with and contacting the inclined surface 71 ′ ca of the chassis inclined portion 71 ′ c. Here, when only the other end side of the cover 101 ′ (the side fixed by the screw 101 g is the base end side) is forcibly lifted and removed, the inclined surface 71 ′ ca Since the locked state is maintained by abutting and contacting the side surface of 101′ea, it is difficult to form a gap between the cover 101 ′ and the chassis 71 ′, and the cover 101 ′ is not easily detached. ing.

  Further, as compared with the case where screws are fixed to both ends, it is possible to save screws, and it is not necessary to take a necessary space in the screw mounting portion, so that a compact lighting device can be provided.

(Application examples)
By the way, this invention is not limited to the said embodiment, Various implementation is possible in the range which does not change the summary of this invention.
In the above embodiment, the back surface of the flat discharge tube 76 and the front surface 71e of the chassis 71 are fixed via an adhesive (double-sided tape) 73, but directly omitting such an adhesive layer, It may be fixed in close contact.

-In the said embodiment, although the thin film-like electrode provided in the back surface of the planar discharge tube 76 is made into the transparent electrode, it does not necessarily need to be transparent.
In the embodiment, the surface shape of the lamp unit has a substantially rectangular box shape, but is not limited thereto, and is similar to the surface shape of the thin light emitter, The surface shape may be other polygonal or elliptical shapes such as a substantially square, a substantially rectangular shape, and a substantially circular shape.

  In the flat discharge tube 76 described in the above embodiment, the transparent electrodes are formed on both outer surfaces. However, the present invention is not limited to this, and one of the transparent electrodes is disposed inside the flat discharge tube 11 (discharge). What is formed in the space) may be adopted, or the transparent electrode on the side that is not the light emitting surface may be a metal thin film electrode. Moreover, the flat discharge tube using other electrode arrangement | positioning may be sufficient, and it is not limited to arrangement | positioning of an electrode.

  -In the said embodiment, although the planar discharge tube was used as a thin light-emitting body, it does not need to be limited to this. For example, a flat unit in which a plurality of organic EL and annular dielectric barrier discharge tubes are arranged in parallel may be used instead of the flat discharge tube. Further, for example, an electron emission type flat light emitting panel using an electron emission source such as nano silicon or nano carbon can be used.

-In the said embodiment, although 2-3 heat conductive double-sided tapes 73 are used, one may be sufficient and it is not limited to a number. However, as the area of contact between the back surface of the flat discharge tube 76 and the double-sided tape 73 increases, the heat radiated from the flat discharge tube 76 is more easily radiated to the chassis 71 side.

In the above embodiment, the lighting circuit board 76 is provided on the inner surface 71e of the chassis 71. However, the present invention is not limited to this, and it may be provided on the rear surface of the chassis 71 or may be provided separately. .

The lens 77 is made of polycarbonate, but is not limited to this. Moreover, what is necessary is just translucency, and glass, resin, etc. are not ask | required.

In the first embodiment, the cover 101 is provided with a pair of auxiliary rails 101e, the chassis wall 71a is provided with a pair of slits 71c, and the auxiliary rail 101e is locked into the pair of slits 71c by being inserted obliquely from above. However, the present invention is not limited to this, and as another example, a pair of slits or recesses (locked portions) are provided in the cover 101, and a pair of auxiliary rails (locking portions) are provided on the chassis wall 71a. ), The same effect can be obtained.

Next, technical ideas grasped from the embodiment and the like are listed.
(A) A lamp unit (100, 100 ′) including a casing (chassis 71, 71 ′) including at least a light source (planar discharge tube 76) therein, and a cover body (101, 101) covering the inside of the lamp unit. 101 ′),
A locking portion provided on either one of the side wall inner surface of the cover body ((101, 101 ′) and the side wall (71) of the housing;
A locked portion provided on the other side of the cover body (101, 101 ′) and the side wall (71) of the housing, on which the locking portion is not provided,
By locking the locking portion and the locked portion to each other, the base end side of the lamp unit is primarily fixed to the cover body,
The other end side of the lamp unit is fixed by another fixing means to complete the fixing of the cover body and the lamp unit.
A lighting device (100, 100 ') characterized by that.

(B) The technical feature in which the locking portion is provided on the inner surface of the side wall of the cover body ((101, 101 ′) and the locked portion is provided on the side wall of the casing (71). The lighting device according to the concept (A).

  According to this configuration, since the lamp unit and the cover body are incorporated and as can be seen from the general view of the lighting device, the locking portion and the locked portion are inside the lighting device, and therefore from the outside of the lighting device. It is impossible to release this locked state, and this locked state can be released only after releasing the “another fixing means”. Here, “another fixing means” on the other end side means that the screw 101g is passed through the fixing hole 101f opened on the other end side of the cover 101 and screwed to the chassis side female screw 71g as described in the above embodiment. It may be inserted and fixed, or may be a locking means provided with a locking hole or a locking claw in the cover body and the housing, respectively, and is not limited to a special fixing means.

(C) The locking portion is a rectangular ridge provided inside the side wall of the cover body, and the ridge (101e, 101'e) is inclined with respect to a normal to the inner surface of the housing. Provided with an angle,
The locked portion (71c, 71′c) has a mounting surface on which the side surface of the protrusion is provided, and the holding angle of the mounting surface is the same as the inclination angle of the protrusion. Is,
The lighting device according to the technical idea (B), wherein

  According to this configuration, the side surface of the ridge and the contact surface of the locked portion are locked by surface contact. That is, since the inclination angle of the side surface of the protrusion and the contact surface of the locked portion is the same, the contact surface becomes a friction surface, and a better locking state can be realized.

  The inclined surface angle is preferably −30 ° to −50 ° or 30 ° to 50 ° with respect to the normal to the inner surface of the housing (see FIGS. 10 and 20). Further, it is more preferably −45 ° or 45 °. In this case, the case of “having no inclination angle” indicates that the inclination angle is 0 °. That is, since it corresponds to a case where the protrusion is provided with a longitudinal direction perpendicular to the inner surface of the housing, it is not included in the technical idea (C).

It is a perspective view of the lamp unit in a 1st embodiment. It is a front view, a right side view, a left side view, a plan view, a bottom view, and a rear view of the lamp unit in the first embodiment. FIG. 3 is an enlarged AA sectional view in the plan view shown in FIG. 2. FIG. 3 is an enlarged BB cross-sectional view in the plan view shown in FIG. 2. It is a perspective view of the illuminating device in 1st Embodiment. It is the front view of the illuminating device in 1st Embodiment, a right view, a left view, a top view, a bottom view, and a rear view. It is a disassembled perspective view of the illuminating device in 1st Embodiment. It is the chassis front view of the illuminating device in 1st Embodiment, a right view, a left view, a top view, a bottom view, and a rear view. It is the cover front view of the illuminating device in 1st Embodiment, a right view, a left view, a top view, a bottom view, and a rear view. It is a figure which shows the latching structure of the cover and chassis in 1st Embodiment.

It is a perspective view of the lamp unit in 2nd Embodiment. It is the front view of the lamp unit in 2nd Embodiment, a right view, a left view, a top view, a bottom view, and a rear view. FIG. 13 is an enlarged AA sectional view in the plan view shown in FIG. 12. It is an expanded BB sectional view in the top view shown in FIG. It is a perspective view of the illuminating device in 2nd Embodiment. It is the front view of the illuminating device in 2nd Embodiment, a right view, a left view, a top view, a bottom view, and a rear view. It is a disassembled perspective view of the illuminating device in 2nd Embodiment. It is the chassis front view of the illuminating device in 2nd Embodiment, a right view, a left view, a top view, a bottom view, and a rear view. It is the cover front view of the illuminating device in 2nd Embodiment, a right view, a left view, a top view, a bottom view, and a rear view. It is a figure which shows the latching structure of the cover and chassis in 2nd Embodiment.

It is a figure which shows the flat type illuminating device of patent document 1. It is a figure which shows the board | substrate for lighting fixtures described in patent document 2. FIG. It is a figure which shows the board | substrate for lighting fixtures described in patent document 3. FIG. It is a figure which shows the structure of the conventional planar discharge tube. It is a figure which shows the latching structure of the cover and housing | casing in the conventional illuminating device.

Explanation of symbols

  70, 70 '... lamp unit, 71, 71' ... chassis as housing (heat radiating member), 75 ... lighting circuit board, 73 ... bonding agent (double-sided tape) as heat conductive bonding agent layer, 76 A flat discharge tube as a thin light emitter (light source), S ... a light emitting surface, 77 ... a lens, 101, 101 '... a cover as a cover body, 100, 100' ... an illumination device. 101e, 101'e ... auxiliary rails as ridges (locking portions), 71c ... slits as locked portions, 71'c ... chassis inclined portions, [theta] 1, [theta] 2, [theta] 3, [theta] 4 ... inclination angles.

Claims (5)

A lamp unit in which the back surface of the thin luminescent material that emits light from the front surface is disposed on the inner surface of the housing with the adhesive layer directly or in close contact with the back surface,
While providing a lens having translucency so as to cover the surface side of the thin light emitter,
A lamp unit, wherein the lens is fixedly installed on the housing. The member constituting the inner surface of the housing is a heat radiating member,
2. The lamp unit according to claim 1, wherein when the back surface of the thin light-emitting body is disposed on the inner surface of the housing via a bonding agent, the bonding agent is a heat conductive member. The thin light emitter is a flat discharge tube,
The lamp unit according to claim 1, wherein the lens includes a protective cover portion for covering an air supply / exhaust tube of the planar discharge tube.   4. A thin film electrode is formed on the rear surface of the flat discharge tube, and the thin film electrode is on a low voltage side of a voltage applied to the flat discharge tube. Lamp unit as described in A lamp unit according to any one of claims 1 to 4,
A lighting circuit for lighting the light emitter provided inside or outside the lamp unit of the lamp by being electrically connected to the thin light emitter,
A cover body covering the lamp unit;
A lighting device comprising:

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