JP2004241191A - Lamp bulb with base - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lamp bulb with the base which has a light-emitting diode mounted on a substrate and the bases on both ends. <P>SOLUTION: This lamp bulb 1 with the bases comprises a light emitting body and two bases 3 positioned so as to interpose the light emitting body, and the light emitting body is a light-emitting diode 4 mounted on the substrate 2. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a novel bulb with a cap. More specifically, the present invention relates to a cap-equipped light bulb having a cap at both ends and a light-emitting body as a light emitting diode.
[0002]
[Prior art]
There is a cap-equipped bulb in which caps are provided at both ends of an airtight container enclosing a filament (see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-9-92233
[0004]
[Problems to be solved by the invention]
By the way, in the above-mentioned conventional light bulbs, light is emitted not only below the vehicle ceiling which needs illumination but also above the vehicle ceiling, so that a reflector is necessary in order to effectively use the light source light. was there.
[0005]
Further, since the luminous body is a filament, there is a problem that the life is short and the power consumption increases.
[0006]
Therefore, an object of the present invention is to provide a lamp with a base having a light emitting diode mounted on a substrate and having bases at both ends.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problems, the present invention provides a lamp with a base, which is provided with a luminous body and two bases positioned so as to sandwich the luminous body, wherein the luminous body is mounted on a substrate. This is a light emitting diode.
[0008]
Therefore, in the lamp with a base according to the present invention, light can be emitted only below the ceiling of the vehicle requiring illumination, and the light source light can be effectively used for illumination without using a separate component. In addition, since the luminous body is a light emitting diode, the life is long and power is saved.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the lamp with a base of the present invention will be described below with reference to the accompanying drawings.
[0010]
1 to 4 show a first embodiment of a lamp with a base according to the present invention.
[0011]
The lamp 1 with a base is provided with a plate-shaped substrate 2, and bases 3, 3 are arranged at both ends of the substrate 2.
[0012]
On one surface of the substrate 2, light-emitting diodes 4, 4,... Are mounted, and on the other surface of the substrate 2, a control circuit 5 for lighting the light-emitting diodes 4, 4,. Will be described in detail in the second embodiment). Lead terminals 2a, 2a protrude from both ends of the substrate 2, and as shown in FIGS. 1 and 3, curved portions 2a ', 2a' are formed in the middle of the lead terminals 2a, 2a.
[0013]
Connection attachments 6, 6 are interposed between the substrate 2 and the bases 3, 3. As can be seen from FIG. 4, the connection attachment 6 has a shape in which thick disks having different outer diameters are concentrically and integrally stacked, and a center hole 6a penetrating the center is provided. A fitting groove 6d is formed on the rear surface of the large diameter portion 6b, that is, on the surface opposite to the small diameter portion 6c.
[0014]
The base 3 is formed of a conductive metal, the cylindrical portion 3a and the conical portion 3b are integrally formed, an insertion hole 3c is formed at the apex of the conical portion 3b, and the inner diameter of the cylindrical portion 3a is The connection attachment 6 is formed to have substantially the same outer diameter as the small diameter portion 6c.
[0015]
The base bulb 1 is assembled as follows.
[0016]
Both ends of the substrate 2 are fitted into fitting grooves 6d, 6d of the connection attachments 6, 6, and the lead terminals 2a, 2a attached to both ends of the substrates 2, 2 are inserted into the center holes 6a, 6a of the connection attachments 6, 6. The lead terminals 2a, 2a are bent so that the portions of the lead terminals 2a, 2a including the curved portions 2a ', 2a' protrude from the tips of the connection attachments 6, 6, and the cylindrical portions 3a, 3a of the bases 3, 3 are connected. , 6, and the leading ends of the lead terminals 2a, 2a are inserted through the insertion holes 3c, 3c of the bases 3, 3, respectively. Further, the lead terminals 2a, 2a are electrically connected and fixed to the bases 3, 3 by soldering, welding, or the like at the tops of the conical portions 3b, 3b. Note that portions of the lead terminals 2a, 2a that protrude from the insertion holes 3c, 3c of the bases 3, 3 are cut and removed. Then, the connection attachments 6, 6, the substrate 2, and the bases 3, 3, are fixed with an adhesive. In this way, the bulb 1 with a base is formed.
[0017]
FIG. 5 shows an interior light 7 for an automobile as an example of a lamp in which the above-described base bulb 1 is used.
[0018]
The interior light 7 has a lamp body 7a and a lens 7b attached to the lamp body 7a so as to cover the opening thereof, and is separated from each other in a space surrounded by the lamp body 7a and the lens 7b so as to face each other. It has terminals 8, 9 for the light bulbs arranged. The light bulb terminals 8, 9 are formed of a material having conductivity and spring elasticity, and have light bulb support parts 8a, 9a and supported parts 8b, 9b supported by the lamp body 7a, respectively. The terminal 8 has a resilient portion 8c that is bent in a substantially U-shape between the bulb support portion 8a and the supported portion 8b. A power supply voltage is applied to the bulb terminal 8 via a lighting switch 7c, and the bulb terminal 9 is grounded.
[0019]
The base bulb 1 is supported between the bulb terminals 8 and 9. That is, the bulb supporting portion 8a of the bulb terminal 8 resiliently contacts one of the bases 3 (power supply side) of the base lamp 1 with the bulb 3 and the bulb supporting portion 9a of the bulb terminal 9 resiliently contacts the other (ground side) base 3. Is done.
[0020]
In the lamp 1 with the cap described above, if the light-emitting diodes 4, 4,... Are attached to the interior light 7 so as to face the lens 7b, the light-emitting diodes 4, 4,. .. Because all of the light is emitted in the direction of the lens 7b, the light source (light emitting diodes 4, 4,...) Can be effectively used for illumination without using a separate component such as a reflector. Can be.
[0021]
In addition, since the lamp 1 with the base is supported by the lamps by the bases 3 at both ends, even if the number of the light emitting diodes 4 is increased, the posture does not become unstable. Can be made.
[0022]
Further, when stress is applied to the lead terminals 2a, 2a due to the difference in the coefficient of thermal expansion between the substrate 2, the bases 3, 3, and the connection attachments 6, 6, the curved portions 2a ', 2a' are deformed. , The above stress is relieved.
[0023]
In addition, when the board 2 is attached to the interior light 7 for an automobile as shown in FIG. 5, the substrate 2 applies stress in the direction of the arrow in FIG. 10 by the terminals 8 and 9 of the lamp 7 via the bases 3 and 3 and the connection attachments 6 and 6. However, in order to prevent the deformation and breakage of the substrate 2 due to the stress, the strength of the substrate 2 may be increased by increasing the thickness of the substrate 2 or the like.
[0024]
FIG. 6 shows a modification 1A of the first embodiment.
[0025]
The substrate 2A of the lamp 1A with a base according to this modification is smaller than the substrate 2 of the lamp 1 with a base and has two light emitting diodes 4,4 mounted thereon. The connection attachment 6A has a thick disk shape, and has a center hole 6Aa at the center. A fitting groove 6Ab is formed on one surface of the connection attachment 6A. The outer diameter of the connection attachment 6A is substantially equal to the inner diameter of the cylindrical portion 3a of the base 3.
[0026]
Then, both ends of the board 2A are fitted into the fitting grooves 6Ab, 6Ab of the connection attachments 6A, 6A, and the lead terminals 2a, 2a protruding from both ends of the board 2A are inserted into the center holes 6Aa, 6Aa of the connection attachments 6A, 6A. It is inserted. Then, the cylindrical portions 3a, 3a of the bases 3, 3 are externally fitted to the connection attachments 6A, 6A, and the tips of the lead terminals 2a, 2a are inserted into the insertion holes 3c, 3c of the bases 3, 3. The lead terminals 2a, 2a are fixed to the bases 3, 3 by soldering, welding or the like at the apexes of the conical portions 3b, 3b of the bases 3, 3, and are electrically connected to the bases 3, 3. Note that portions of the lead terminals 2a, 2a that protrude from the insertion holes 3c, 3c of the bases 3, 3 are cut and removed. Further, the connection attachments 6A, 6A, the substrate 2A and the bases 3, 3 are fixed with an adhesive. In this way, a lamp 1A with a base is formed.
[0027]
The lamp with a base 1A according to this modification has the same advantages as the lamp 1 with a base.
[0028]
7 to 9 show a second embodiment.
[0029]
The base bulb 10 includes a case body 20, bases 30, 30 attached to both ends of the case body 20, and a substrate 50 disposed in the case body 20 and mounted with a plurality of light emitting diodes 40, 40,. .
[0030]
As can be clearly understood from FIG. 7, the case body 20 includes two parts, namely, a body 21 and a cover 22, and has a substantially cylindrical main body part 20a and stepped parts 20b, 20b provided at both ends of the main body part 20a. And fitting portions 20c, 20c connected to each other. The step portions 20b, 20b are outwardly formed, that is, formed as step surfaces facing the fitting portions 20c, 20c. Therefore, the fitting portions 20c, 20c have a cylindrical shape smaller in diameter than the main body portion 20a. ing.
[0031]
The body 21 and the cover 22 have the same shape. For this reason, in FIG. 7, portions that cannot be seen with respect to the cover 22 are denoted by reference numerals with parentheses after reference numerals indicating similar portions of the body 21. The body 21 and the cover 22 are formed with main body forming portions 21a and 22a each having a shape obtained by vertically dividing a cylinder into half, and a fitting portion provided with both ends of the main body forming portions 21a and 22a and having a shape obtained by dividing the cylinder vertically into half. Forming parts 21c, 21c, 22c, 22c are integrally formed, and step part forming parts 21b, 21b, 22b, 22b are formed between the main part forming part and the fitting part forming part. The mating surfaces of the fitting portion forming portions 21c, 21c, 22c, and 22c, that is, the mating protrusions 21d and 21d , 22d, 22d and fitting recesses 21e, 21e, 22e, 22e into which the fitting protrusions 21d, 21d, 22d, 22d are fitted. The fitting projections and the fitting recesses are formed such that the fitting projections 21d and 21d and 22d and 22d are located on the first diagonal with respect to each other. 22e are formed on a second diagonal paired with the first diagonal. Therefore, when the body 21 and the cover 22 are abutted against each other so that the opening surfaces thereof face each other, the fitting projections 21d, 21d and the fitting recesses 22e, 22e, and the fitting recesses 21e, 21e, The fitting projections 22d and 22d face each other. Closed wall forming portions 21f, 21f, 22f, 22f are formed on outer end surfaces of the fitting portion forming portions 21c, 21c, 22c, 22c. The end faces of the closing wall forming portions 21f, 21f, 22f, 22f on the butting surface side are recessed from the butting surfaces of the fitting portion forming portions 21c, 21c, 22c, 22c. Insertion hole forming portions 21g, 21g, 22g, 22g are formed at the center of the end surfaces on the abutting surfaces of the closing wall forming portions 21f, 21f, 22f, 22f.
[0032]
Further, step surfaces 21h and 22h are formed inside the opening end surfaces of the main body forming portions 21a and 22a of the body 21 and the cover 22.
[0033]
The body 21 and the cover 22 have the same shape, but are preferably formed of different materials. For example, the body 21 is preferably formed of a light-impermeable material, and the cover 22 is preferably formed of a transparent material. Thereby, the correct orientation when attaching to the lamp can be understood at a glance. When the body 21 is formed of a material having a color that diffuses and reflects light, such as white, light emitted from the light emitting diodes 40, 40,... Is diffusely reflected and transmitted through the cover 22, and is useful for illumination. Therefore, brighter illumination can be performed. For example, it is conceivable that the body 21 is formed of white PC (polycarbonate) and the cover 22 is formed of transparent PC.
[0034]
The body 21 and the cover 22 are oriented in such a manner that their open sides abut each other, and the fitting projections 21d, 21d are in the fitting recesses 22e, 22e, and the fitting recesses 21e, 21e are in the fitting projections. 22d, butted in a direction opposite to 22d. Accordingly, the fitting protrusions 21d, 21d are fitted into the fitting recesses 22e, 22e in a press-fitting manner, and the fitting protrusions 22d, 22d are fitted in the fitting recesses 21e, 21e in a press-fitting manner, so that the body The position of the cover 21 and the cover 22 is adjusted, and the cover 21 and the cover 22 are temporarily connected to each other. When the body 21 and the cover 22 are joined, a groove 20d formed by the step surfaces 21h and 22h is formed in the internal space of the main body 20a, and the closed ends of the fitting portions 20c, 20c are formed. The closing walls 20e, 20e are formed by the closing wall forming portions 21f, 21f, 22f, 22f, and the notch portions are formed in the closing walls 20e, 20e due to a difference in shape between the closing wall forming portions 21f, 21f, 22f, 22f. Insertion holes 20g, 20g are formed by 20f, 20f and the insertion hole forming portions 21g, 21g and 22g, 22g.
[0035]
In this embodiment, four chip-type light emitting diodes 40, 40,... A predetermined conductor pattern (not shown) is formed on the substrate 50, and required electronic components are mounted in addition to the light emitting diodes 40, 40,. FIG. 9 shows a circuit example when four light emitting diodes are mounted. In this circuit example, two series circuits in which the limiting resistor R1 (or R2) and the two light emitting diodes 40, 40 are connected in series are connected in parallel between the power supply terminal + B and the ground terminal GND. The limiting resistors R1 and R2 are inserted on the power supply side of each series circuit, and a diode D1 for preventing backflow is inserted between the limiting resistors R1 and R2 and the power supply side terminal + B. Are mounted on the front surface of the substrate 50, that is, the side facing the cover 22, and the other electronic components, that is, the limiting resistors R1, R2, and the backflow prevention. The diode D1 is mounted on the back surface of the substrate 50, that is, on the surface facing the body 21.
[0036]
The substrate 50 has a rectangular main portion 50a having a width and length substantially equal to the width and length of the portion where the groove 20d is formed in the internal space of the main body portion 20a of the case body 20 when viewed in a plane. A rectangular projection 50b projecting from both ends of the main portion 50a, having a width equal to the width of the internal space of the fitting portions 20c, 20c of the case body 20 and having a length substantially equal to the length of the fitting portions 20c, 20c. , 50b are integrally formed.
[0037]
Clip terminals 51, 51 are attached to both ends of the substrate 50. The clip terminal 51 has a generally thin strip shape, and has a bifurcated clip portion 51a at the base end when viewed from the side. Further, a curved portion 51b which is curved in a substantially U-shape is formed at an intermediate portion of the clip terminal 51. Then, the clip terminal 51 is temporarily fixed to the substrate 50 so that the front end of the protruding portion 50b of the substrate 50 is sandwiched from the front and rear by the clip portion 51a. Is fixed to a terminal portion (not shown) (power supply side terminal + B or ground side terminal GND). As described above, the two clip terminals 51, 51 are attached to both ends of the substrate 50, and the two clip terminals 51, 51 are formed at the tips of the protrusions 50b, 50b of the substrate 50, not shown. The power supply side terminal + B and the installation side terminal GND are separately connected.
[0038]
Then, the substrate 50 is accommodated in the case body 20. As can be seen from FIG. 8, the peripheral edge of the main portion 50 a of the substrate 50 is located in a groove 20 d formed on the inner surface of the main body 20 a of the case body 20, and the protruding portions 50 b and 50 b are fitted to the fitting portions 20 c of the case body 20. 20c, the distal ends of the protruding portions 50b, 50b are located in notches 20f, 20f formed in the closing walls 20e, 20e, and the clip portions 51a, 51a of the clip terminals 51, 51 are inserted into the insertion holes 20g. , 20 g. Then, portions of the clip terminals 51, 51 beyond the clip portions 51 a, 51 a protrude from both ends of the case body 20.
[0039]
As described above, the bases 30, 30 are fixed to both ends of the case body 20 in which the substrate 50 is accommodated.
[0040]
The base 30 is formed of a conductive metal, and is formed by integrally forming a cylindrical main part 31 having a short axial length and a conical tip part 32 connected to one end of the main part. . The base edge 31 a of the main portion 31, that is, the opening edge opposite to the distal end portion 32 is slightly enlarged in diameter. In addition, a mounting hole 32a is formed in the pointed portion of the distal end portion 32. Such a die 30 is formed by press-forming a metal plate having conductivity, for example, SUS (stainless steel), but of course, the material and the manufacturing method are not limited to this.
[0041]
As can be seen from FIG. 8, the bases 30 are externally fitted to fitting portions 20 c of the case body 20. That is, the main portions 31, 31 of the bases 30, 30 are externally fitted with the adhesive interposed between the fitting portions 20c, 20c. At this time, the tips of the clip terminals 51, 51 projecting from both ends of the substrates 50, 50 are inserted into the mounting holes 32 a, 32 formed in the tips 32, 32 of the bases 30, 30. Then, the tips of the clip terminals 51, 51 are connected to the tips of the tips 32, 32 of the bases 30, 30 by soldering, welding, or the like, and then from the tips of the bases 30, 30 of the clip terminals 51, 51. The protruding portion is cut to form the base bulb 10.
[0042]
For example, when the lamp 10 with a base is attached to the interior light 7 for an automobile shown in FIG. 5, since the appearance of the body 21 of the case body 20 and the cover 22 are different, the cover 22 faces the lens 7b. Can be easily mounted.
[0043]
When the lamp 10 with the base is attached to the interior light 7 for a vehicle, the bases 30, 30 are pressed from both sides by the resilient portions 8c provided on the terminal 8 for the bulb, whereby the base 30 is pressed. , 30 are securely brought into contact with the bulb terminals 8, 9, so that the light emitting diodes 40, 40,... Mounted on the substrate 50 are connected to an external power supply circuit. As described above, the bulb 10 with the base is pressed in the direction indicated by the arrow in FIG. 5 through the bases 30, 30 by the resilience of the spring portion 8 c of the bulb terminal 8. , 30 are received by the step portions 20b, 20b of the case body, the pressing force does not reach the substrate 50, and thus the base bulb 50 is attached to the lamp by mounting the base bulb 10 with the base. There is no fear of being damaged.
[0044]
In the lamp 10 with the base, the case body 20, the bases 30, 30 and the substrate 50 are formed of different materials, respectively, and have different thermal expansion coefficients. The stress generated due to the difference in the coefficient of thermal expansion may affect the substrate 50. However, in the lamp 10 with the base, the bent portions 51 b, 51 b are formed on the clip terminals 51, 51. Can be absorbed by the deformation of the curved portions 51b, 51b, and the stress applied to the substrate 50 can be reduced.
[0045]
Further, in the lamp 10 with the base, the two members constituting the case body 20, that is, the body 21 and the cover 22 are formed in the same shape, and the opening surfaces of the two members 21 and 21 are opposed to each other. Since the members 22 can be connected, the two members can be formed using the same mold, which contributes to cost reduction.
[0046]
Furthermore, since the body 21 is formed of a light-impermeable material and the cover 22 is formed of a light-permeable material, the orientation at the time of attachment to the lamp can be easily determined, and the back side of the substrate 50 can be easily determined. That is, it is possible to cover the inside of the light emitting diodes 40, 40,.
[0047]
Further, since the case body 20, which is a member for accommodating the substrate 50, is divided into two members, that is, a body 21 and a cover 22, the width of the space for accommodating the substrate 50 is larger than the bases 30, 30. .. Can accommodate a larger substrate 50 and increase the number of light emitting diodes 40, 40,. For example, the above-described four light-emitting diodes 4, 40,... Are mounted on a 12V type, and as shown in FIG. By reducing the values of the resistors R1 and R2 from those of the 12V type, the number of light emitting diodes can be increased, and a bright bulb with a base can be obtained. Further, by increasing the resistances R1 and R2 from the 12V type and mounting eight light emitting diodes 40, 40,..., It is also possible to use a 24V type. Conversely, as shown in FIG. 11, the number of light-emitting diodes 40, 40,... Is two, and the values of the resistors R1, R2 are higher than those of the 12V type, thereby reducing the number of light-emitting diodes. A low cost bulb with a base can also be used. It is also possible to reduce the resistances R1 and R2 from the 12V type and to mount two light emitting diodes 40, 40,... To form a 6V type.
[0048]
In the lamp 10 with the base described above, the base 30 on the power supply terminal + B side to which the anodes of the light emitting diodes 40, 40,. , 40,... To the ground terminal GND side base 30 to which the cathodes are connected, must be connected to the ground side bulb terminal 64, respectively.
[0049]
Therefore, a circuit diagram of a configuration example that can be used without worrying about the mounting direction to the lamp is shown in FIG.
[0050]
This circuit includes four diodes D2, D3, D4, between both ends of two parallel circuits connected in series with a limiting resistor R1 and two light emitting diodes 40, 40 and two terminals ±, ±. A diode bridge circuit 70 in which D5 is bridge-connected is connected. If the terminals ±, ± are connected to the bases 30, 30, respectively, the light emitting diodes 40, 40,... Can emit light regardless of which base is connected to the bulb terminal 63 on the power supply side. it can. It is needless to say that the number of light emitting diodes 40, 40,... In this case is not limited to four.
[0051]
Further, in the above-described lamp with a base 10, the bases 30, 30 are fixed to the fitting portions 20 c, 20 c of the case body 20 using an adhesive. FIG. 13 shows a structure for fixing the case 30 to the case body 20.
[0052]
In this example, only the engagement protrusions 20h, 20h,... (Only one formed on the cover 22 side of one of the engagement portions 20c is shown) on the engagement portions 20c, 20c (only one of them is shown) of the case body 20. ), And engaging holes 31b, 31b,... (Only one of the covers 22 is shown) is formed in the main portion 31 of the bases 30, 30 (only one is shown). When the fitting 30 is externally fitted to the fitting portions 20c of the case body 20, the engaging projections 20h, 20h,... Of the case body 20 are engaged with the engaging holes 31b, 31b,. This prevents the bases 30, 30 from falling off the case body 20.
[0053]
As described above, by not using an adhesive, labor for applying the adhesive and managing the adhesive can be omitted, which contributes to cost reduction. In addition, since it is not necessary to provide a time for the adhesive to solidify in the process, the time required for the manufacturing process of the lamp with a base 10 can be reduced. Further, the fixing with the adhesive has a problem of a decrease in the fixing force due to the temporal change of the adhesive. However, by adopting the mechanical coupling shown in FIG. 13, the bases 30, 30 due to the decrease in the fixing force based on the temporal change. From the case body 20 does not occur.
[0054]
The width W of the substrate 50 is formed to be 9 mm (millimeter). The width of 9 mm is a value that is five times the forming pitch of 1.8 mm of terminals for a hybrid IC that is a general-purpose product. Thereby, a general-purpose product can be used for the clip terminal 51 instead of a dedicated one, which contributes to a reduction in manufacturing cost.
[0055]
One example of a method of manufacturing the substrates 50, 50,... Is shown in FIG. 14, in which a large number of substrates 50, 50,. Prepare a substrate assembly 80 that is continuously integrated in the width direction, and leave every other terminal 51, 51,... Of the hybrid IC terminal assembly 90 as shown in FIG. A terminal material 90 'is obtained by removing the terminal. Therefore, the interval between the terminals 51, 51,... Remaining on the terminal material 90 'is 9 mm for 5 pitches (1.8 mm × 5), which is equal to the width W of the substrate 50. Therefore, as shown in FIG. 14, the clip terminals 51, 51,... Remaining on the terminal materials 90 ′, 90 ′ are attached to both ends of each of the substrates 50, 50,. .. Are soldered to the substrates 50, 50,... By solder dip, and finally, the clip terminals 51, 51,. .. Are formed on the terminals 51, 51,...), And the substrates 50, 50,. (Indicated by broken lines in FIG. 14), whereby a large number of substrates 50, 50,... To which the clip terminals 51, 51 are attached can be manufactured.
[0056]
As described above, by setting the width W of the substrate 50 to an integral multiple of the formation pitch of the general-purpose hybrid IC terminals (for example, “5” in the above-described embodiment), general-purpose components can be used. Cost can be reduced. Although the width W of the substrate 50 is 9 mm in the above example, the width W is not limited to 9 mm, and the above-described effect can be obtained as long as it is an integral multiple of the pitch of the terminals that are general-purpose components.
[0057]
16 and 17 show modified examples of the cover in which the light of the light emitting diodes 40, 40,... Is diffused and irradiated.
[0058]
The cover 102 shown in FIG. 16 has a shape in which the main body forming portion 102a is formed by arranging two semi-cylindrical ridges 102i, 102i. The shape of the cover 102 other than the main body forming portion 102a is substantially the same as that of the cover 22, and the step portion forming portion 102b, the fitting portion forming portion 102c, the closing wall forming portion 102f, and the insertion hole forming portion 102g are formed. Although not shown, the body 21 has a fitting protrusion similar to the fitting protrusion 22d, a fitting recess similar to the fitting recess 22e, and a step surface similar to the step surface 22h. And a case body substantially similar to the case body 20 is formed.
[0059]
When the case body is formed using the cover 102 shown in FIG. 16, the light of the light-emitting diodes mounted on the substrate housed in the case body is diffused by the ridges 102i, 102i in the form of a cylinder, and diffused illumination is performed. be able to.
[0060]
The cover 112 shown in FIG. 17 is also configured to perform diffuse illumination, and a hemispherical step is provided at a position corresponding to the light emitting diodes 40, 40,... (Not shown) on the surface of the main body forming portion 112a. 112i, 112i,... Are formed. The shape of the portion other than the main body forming portion 112a is substantially the same as that of the cover 22, and includes a step forming portion 112b, a fitting portion forming portion 112c, a closing wall forming portion 112f, and an insertion hole forming portion 112g. Although not shown, it has a fitting protrusion similar to the fitting protrusion 22d, a fitting recess similar to the fitting recess 22e, and a step surface similar to the step surface 22h. Thus, a case body substantially similar to the case body 20 is configured.
[0061]
When the case body is formed using the cover 112 shown in FIG. 17, the light of the light emitting diodes mounted on the substrate housed in the case body is diffused by the hemispherical steps 112i, 112i,. Diffuse illumination can be provided.
[0062]
The light-emitting diodes 40, 40,... Emit light in the case body 20, which is a substantially closed space, in the lamp 10 with a base, and thus generate heat. Therefore, in order to dissipate the heat generated by the light emission of the light emitting diodes 40, 40,..., A heat sink 120 as shown in FIG. The heat sink 120 is formed of a material having good thermal conductivity, for example, aluminum, and has a shape in which a plurality of radiating fins 122, 122, 122 project from the back surface of the main surface portion 121 abutting on the back surface of the substrate 50. have.
[0063]
By using the heat sink 120 described above, the heat generated by the light emitting diodes 40, 40,... Is transmitted to the radiation fins 122, 122, 122 via the main surface 121, and the main surface 121 and the radiation fin 122, The heat is radiated from the surfaces of 122 and 122. Therefore, it is possible to prevent adverse effects caused by the high temperature of the light emitting diodes 40, 40,... And the substrate 50.
[0064]
Further, when providing the heat sink 120, if the reflecting surface portions 123, 123 extending while curving forward from both side edges along the longitudinal direction of the main surface portion 121 are formed, the light emitting diodes 40, 40,. Light reflected toward the side can be reflected and radiated forward, and the light beam can be used effectively.
[0065]
The heat sink 120 can be formed by, for example, aluminum die casting. However, if a long one is formed by extrusion of aluminum and cut into a necessary length, the heat sink 120 can be manufactured at low cost. can do.
[0066]
The light-emitting diodes 40, 40,... Used as the light source of the base bulb 10 are preferably white light-emitting diodes in consideration of the brightness of the illumination. The use of a luminescent material is also conceivable. For example, by using a plurality of light-emitting diodes having different emission colors and varying the current flowing through each light-emitting diode, the overall emission color can be controlled. Further, as shown in FIG. 19, a control circuit 131 for turning on / off individual or a plurality of light-emitting diodes 40 (in the figure, the case where each light-emitting diode 40 is controlled individually) or controlling current is replaced by a sound-sensitive means such as a microphone. An audio control circuit 130 operated by a signal from the signal 132 is provided, and can emit light in various combinations of colors and various blinking modes in response to surrounding sounds and voices.
[0067]
FIG. 20 and FIG. 21 show a third embodiment of a lamp with a base according to the present invention.
[0068]
The light bulb 200 with a base includes a substrate 210 having a substantially rectangular plate shape, and the light emitting diodes 220, 220,... Are mounted on one surface of the substrate 210, and the light emitting diodes 220, 220 are mounted on the other surface of the substrate 210. ,... Are turned on. Lead terminals 240 protrude from both ends of the substrate 210, and curved portions 241 241 are formed at an intermediate portion between the lead terminals 240.
[0069]
The substrate 210 on which the light emitting diodes 220, 220,... Are mounted is disposed in a transparent tube, that is, a transparent tube 250. The transparent tube 250 is usually a glass tube having a cylindrical shape, but is not limited thereto. The shape may be a rectangular cylindrical shape, and the material is not limited to glass. However, if it is a transparent glass tube, existing glass tubes of various sizes can be used, and there is no need for a dedicated mold or the like for obtaining a transparent tube. it can. It is desirable that the width of the substrate 210 be equal to the inner diameter of the transparent tube 250 so that the substrate 210 does not rattle in the transparent tube 250.
[0070]
Both ends of the transparent tube 250 are closed by connection attachments 260, 260. The connection attachment 260 has an outer shape in which two thick disks having different diameters are concentrically and integrally stacked, and an outwardly protruding flange 263 is provided at an end of the large diameter portion 261 on the small diameter portion 262 side. Is formed. The outer diameter of the large diameter portion 261 is substantially equal to the inner diameter of the transparent tube 250. A center hole 264 is formed through the center of the connection attachment 260, and a fitting groove 265 is formed on an end surface of the large diameter portion 261.
[0071]
The large diameter portions 261 of the connection attachments 260 are internally fitted to both ends of the transparent tube 250. At this time, both ends of the substrate 210 located in the transparent tube 250 are fitted into the fitting grooves 265 and 265 of the connection attachments 260 and 260. The lead terminals 240, 240 are inserted through the center holes of the connection attachments 260, 260, and the curved portions 241, 241 of the lead terminals 240, 240 and a portion on the tip side therefrom protrude from the connection attachments 260, 260. Note that at least one end of the substrate 210 is fixed to the fitting groove 265 by an adhesive. The connection attachments 260 are fixed to the transparent tube 250 with an adhesive. Thus, the position of the substrate 210 in the transparent tube 250 is stabilized.
[0072]
The bases 270, 270 are fixed to the connection attachments 260, 260 fixed to both ends of the transparent tube 250. The base 270 is formed of a conductive metal, the cylindrical portion 271 and the conical portion 272 are integrally formed, an insertion hole 273 is formed at the apex of the conical portion 272, and the inner diameter of the cylindrical portion 271 is equal to the connection diameter. The outer diameter of the small diameter portion 262 of the attachment 260 is substantially equal to the outer diameter.
[0073]
Therefore, the cylindrical portions 271 and 271 of the bases 270 and 270 are externally fitted to the small-diameter portions 262 and 262 of the connection attachments 260 and 260, and the leading ends of the lead terminals 240 and 240 are inserted into the insertion holes 273 and 273 of the bases 270 and 270. I do. Further, the lead terminals 240, 240 are electrically connected and fixed to the bases 270, 270 at the tops of the conical portions 272, 272 by soldering, welding, or the like. Note that portions of the lead terminals 240, 240 that protrude from the insertion holes 273, 273 of the bases 270, 270 are cut and removed. The cylindrical portions 271 and 271 of the bases 270 and 270 are fixed to the small-diameter portions 262 and 262 of the connection attachments 260 and 260 with an adhesive. In this way, the base bulb 200 is formed.
[0074]
In the lamp 200 with the cap, it is possible to provide a large output, and the stress applied to the lead terminals 240, 240 can be reduced by the curved portions 241, 241. Since both ends of the transparent tube 250 receive the stress received through the bases 270 and 270 through the flanges 263 and 263 of the connection attachments 260 and 260, the substrate 210 does not receive the stress.
[0075]
FIG. 22 shows a modification 280 of the third embodiment.
[0076]
The lamp with a base 280 is suitable for a lamp with a relatively small output, like the lamp with a base 1A according to the modified example of the first embodiment.
[0077]
In the lamp 280 with the base, the base 270 similar to the above is used for the base. The transparent tube 290 has a diameter smaller than that of the transparent tube 250, that is, a tube whose outer diameter is substantially equal to the inner diameter of the cylindrical portion 271 of the base 270.
[0078]
The substrate 300 is smaller than the substrate 210, and has two light emitting diodes 310 mounted on one surface. Although not shown, a control circuit for lighting the light emitting diodes 310 and 310 is mounted on the other surface. Lead terminals 320, 320 protrude from both ends of the substrate 300, and curved portions 321, 321 are formed in an intermediate portion between the lead terminals 320, 320. Such a substrate 300 is inserted into the transparent tube 290.
[0079]
The connection attachments 330, 330 are attached to both ends of the transparent tube 290. The connection attachment 330 is in the form of a thick disk having an outer diameter substantially equal to the inner diameter of the transparent tube 290, a center hole 331 is provided at the center, and a fitting groove (not shown) is formed on one surface. Is formed. Such connection attachments 330, 330 are fitted inside both ends of the transparent tube 290, and both ends of the substrate 300 are fitted into fitting grooves (not shown) of the connection attachments 330, 330. At this time, the lead terminals 320, 320 are inserted into the center holes 331, 331 of the connection attachments 330, 330, and the portions ahead of the curved portions 321, 321 project from the connection attachments 330, 330. Then, the connection attachments 330, 330 are fixed to the transparent tube 290 by an adhesive.
[0080]
Further, the cylindrical portions 271 and 271 of the bases 270 and 270 are externally fitted to both ends of the transparent tube 290, and the bases 270 and 270 are fixed to both ends of the transparent tube 290 by an adhesive. The lead terminals 320, 320 are inserted into the insertion holes 273, 273 of the bases 270, 270, and are electrically connected to the bases 270, 270 by soldering, welding, or the like at the tops of the conical parts 272, 272. Fixed.
[0081]
Even in the lamp 280 with the base, the stress applied to the lead terminals 320, 320 can be reduced by the curved portions 321, 321. Further, the stress received from the terminal of the lamp or the like via the bases 270, 270 can be reduced. Since the bases of the conical portions 272 and 272 of 270 and 270, that is, the connection portions with the cylindrical portions 271 and 271 abut on both ends of the transparent tube 290, both ends of the transparent tube 290 receive the stress. I will not receive it.
[0082]
It should be noted that the shapes and structures of the respective parts shown in the above-described embodiment and each modified example are merely examples of the specific examples performed when carrying out the present invention, and the technical and technical aspects of the present invention are not limited thereto. The scope should not be construed as limiting.
[0083]
【The invention's effect】
As is apparent from the above description, the lamp with the cap of the present invention is a lamp with a cap having a luminous body and two bases positioned so as to sandwich the luminous body, wherein the luminous body is provided on a substrate. It is a light emitting diode mounted.
[0084]
Therefore, in the lamp with a base according to the present invention, light can be emitted only below the ceiling of the vehicle requiring illumination, and the light source light can be effectively used for illumination without using a separate component. In addition, since the luminous body is a light emitting diode, the life is long and power is saved.
[0085]
In the invention described in claim 2, the substrate on which the light-emitting diode is mounted has a substantially cylindrical shape and is housed in a case body that transmits light of the light-emitting diode in at least one direction. At both ends of the main body housing the substrate, a fitting portion which is continuous through a step portion and has a smaller diameter than the main body portion is formed, and the base is externally fitted to the fitting portion of the case body and the main body side Since the end edge of the terminal abuts on the step portion, the resilient force of the terminal applied through the base portion is received by the step portion of the case body, so that the terminal is not applied to the substrate. Therefore, the substrate is not deformed or damaged by the elastic force of the terminal.
[0086]
According to the third aspect of the present invention, the case body includes a body and a cover, the substrate is located between the body and the cover, and at least the cover is formed of a light transmissive material. Therefore, a large space for accommodating the substrate can be taken, and the number of light emitting diodes mounted can be increased by enlarging the substrate.
[0087]
According to the invention described in claim 4, the substrate on which the light emitting diode is mounted is arranged in a transparent tube, and the bases are provided at both ends of the tube, so that the glass tube is used as the transparent tube. The existing glass tube can be used, and the manufacturing cost can be reduced.
[0088]
According to the invention as set forth in claim 5, since a curved portion is formed at a portion between the base and the base of the lead terminal extending from both ends of the substrate and connected to the base, the case body, The stress generated due to the difference in the coefficient of thermal expansion of each material of the substrate and the base is absorbed by the curved portion of the lead terminal, and the substrate is prevented from being deformed or damaged by the stress.
[0089]
According to the invention described in claim 6, since the light emitting diode lighting circuit mounted on the board includes the diode bridge circuit, it is not necessary to be aware of the polarity of the light emitting diode when attaching to the lamp. That is, the light emitting diode can be turned on regardless of the orientation of the light emitting diode.
[Brief description of the drawings]
FIG. 1 shows a first embodiment of a lamp with a base according to the present invention, together with FIGS. 2 to 4, which is a horizontal sectional view.
FIG. 2 is a side view of a substrate on which a light emitting diode is mounted.
FIG. 3 is a bottom view of a substrate on which a light emitting diode is mounted.
4A and 4B show a connection attachment, wherein FIG. 4A is a side view, and FIG. 4B is a right side view of FIG.
FIG. 5 is a longitudinal sectional view showing an example of a vehicle interior light.
FIG. 6 is a horizontal sectional view showing a modification of the first embodiment.
FIG. 7 shows a second embodiment of the lamp with a base according to the present invention, together with FIGS. 8 and 9, which is an exploded perspective view.
FIG. 8 is a horizontal vertical sectional view.
FIG. 9 is a circuit diagram.
FIG. 10 is a diagram illustrating another circuit example.
FIG. 11 is a diagram showing still another circuit example.
FIG. 12 is a diagram illustrating an example of a circuit in which attachment polarities are eliminated.
FIG. 13 is an exploded perspective view of a main part showing a modification of fixing the base to the case body.
FIG. 14 is a schematic plan view showing one process of manufacturing a substrate.
FIG. 15 is a schematic plan view showing an example of a terminal for a hybrid IC.
FIG. 16 is a perspective view showing a modification of the cover.
FIG. 17 is a perspective view showing another modification of the cover.
FIG. 18 is a perspective view showing a heat sink attached to a substrate.
FIG. 19 is a diagram showing an example of a circuit in which the light emission mode changes in response to a voice.
FIG. 20 shows a third embodiment of the lamp with a base according to the present invention, together with FIG. 21, which is a horizontal sectional view.
FIG. 21 is an enlarged sectional view taken along line XXI-XXI in FIG. 20;
FIG. 22 is a horizontal sectional view showing a modification of the third embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Light bulb with base, 2 ... Board, 2a ... Lead terminal, 2a '... Curved part, 3 ... Base, 4 ... Light emitting diode, 1A ... Light bulb with base, 2A ... Substrate, 10 ... Light bulb with base, 20 ... Case body .., 20a body part, 20b step part, 20c fitting part, 21 body, 22 cover, 30 base, 31a edge of the body part side, 40 light emitting diode, 50 board, 51 clip Terminal (lead terminal), 51b ... bending part, 70 ... diode bridge circuit, 200 ... bulb with base, 210 ... substrate, 220 ... light emitting diode, 240 ... lead terminal, 241 ... bending part, 250 ... transparent tube (transparent tube) ) 270: base, 280: bulb with base, 290: transparent tube (transparent tube), 310: light-emitting diode, 320: lead terminal, 321: curved portion

Claims (6)

A base-equipped light bulb comprising a luminous body and two bases positioned so as to sandwich the luminous body,
The light-emitting body is a light-emitting diode mounted on a substrate. The board on which the light-emitting diode is mounted is housed in a case that has a substantially cylindrical shape and transmits light of the light-emitting diode in at least one direction,
At both ends of the main body portion of the case body housing the substrate, a fitting portion which is continuous through a step portion and has a smaller diameter than the main body portion is formed,
2. The lamp with a base according to claim 1, wherein the base is externally fitted to the fitting portion of the case body, and an edge on a main body side abuts on the step portion. 3. 3. The base according to claim 2, wherein the case body includes a body and a cover, the substrate is located between the body and the cover, and at least the cover is formed of a light transmissive material. light bulb. Place the board with the light emitting diode inside the transparent tube,
The lamp with a base according to claim 1, wherein bases are provided at both ends of the transparent tube. The curved portion is formed at a portion of the lead terminal extending from both ends of the substrate and connected to the base, between the substrate and the base. Light bulb with cap as described. The light bulb with a base according to claim 2, wherein the light emitting diode lighting circuit mounted on the substrate includes a diode bridge circuit.

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