JP6358576B2 - Light emitting module holder and lighting device - Google Patents

Description

  The present invention relates to a holder for fixing a light emitting module to a base portion and an illumination device including the holder.

  In recent years, LED (Light Emitting Diode) illumination has been rapidly spread from the viewpoint of energy saving. The LED illumination is configured, for example, by attaching an LED module having a plurality of LEDs arranged on a substrate to a base portion (for example, an instrument body) of the LED illumination.

US Patent Application Publication No. 2012/0236532

  When the LED module is attached to the base portion, the LED module needs to dissipate heat. Therefore, it is necessary to connect the LED module and the base portion mechanically and thermally.

  Therefore, there is a holder that has the above function and can connect an external electric wire. In other words, there is LED illumination in which power for light emission to the LED module is supplied via the holder.

  For example, there is LED lighting in which each of the two holders fixes the LED module by pressing the end of the LED module in the direction of the base.

  Each of these two holders may be used for fixing a plurality of LED modules having different sizes from each other because only the end portion on which the electrode of the LED module is disposed needs to be pressed.

  However, when fixing the LED module to the base part using these two holders, for example, while holding the LED module arranged at a predetermined position of the base part by hand, at the two end parts of the LED module, It is necessary to place the holder and fix it with screws. Further, in these series of operations, it is necessary to accurately position each holder and the LED module with respect to the base portion so that the electrical connection between each holder and the LED module is stably maintained.

  That is, when the plurality of holders are responsible for supplying power to the LED module and fixing the LED module to the base portion, there is a problem that the assembly work of the LED illumination becomes complicated.

  In view of the above-described conventional problems, the present invention is one of a plurality of holders for supplying power to a light emitting module and fixing the light emitting module to the base, and the holder for facilitating the fixing operation And it aims at providing an illuminating device provided with the said holder.

  The holder which concerns on 1 aspect of this invention is one holder of several holders which fix the light emitting module arrange | positioned at the said base part to the said base part by being attached to a base part, Comprising: The said light emitting module And a holding part that holds the light emitting module in a cantilevered state when the holder is not attached to the base part.

  An illumination device according to an aspect of the present invention includes a base portion, a light emitting module disposed in the base portion, and a plurality of holders that fix the light emitting module to the base portion, each of the plurality of holders being And a contact terminal electrically connected to the electrode of the light emitting module, and a holding portion for holding the light emitting module in a cantilevered state when the holder is not attached to the base portion.

  According to the holder of one embodiment of the present invention, power can be supplied to the light emitting module, and the work for fixing the light emitting module to the base portion is facilitated.

  In addition, according to the lighting device of one embodiment of the present invention, it is easy to attach a holder that supplies power to the light emitting module and fixes the light emitting module to the base portion.

1 is a perspective view showing a basic structure of a lighting device according to Embodiment 1. FIG. FIG. 2 is an exploded perspective view corresponding to FIG. 1. It is a perspective view which shows a mode that the holder which concerns on Embodiment 1 is holding the light emitting module in the cantilever state. FIG. 3 is a side view illustrating an outline of a holding unit according to the first embodiment. 6 is a diagram illustrating an operation of a holding unit according to Embodiment 1. FIG. 6 is a side view of a holder according to Modification 1 of Embodiment 1. FIG. 10 is a side view showing the shape of a contact terminal according to Modification 2 of Embodiment 1. FIG. 10 is a side view of a holder according to Modification 3 of Embodiment 1. FIG. FIG. 10 is a diagram illustrating an operation of a holding unit in a holder according to Embodiment 2. It is a figure which shows the example of a shape of the movement board which concerns on Embodiment 2. FIG. 10 is a side view showing the shape of a contact terminal according to a modification of the second embodiment. FIG.

  Hereinafter, lighting devices according to embodiments will be described with reference to the drawings. The embodiment described below shows a specific example of the present invention. Therefore, the numerical values, shapes, materials, components, arrangement positions and connection forms of components shown in the following embodiments are merely examples, and are not intended to limit the present invention. Therefore, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims showing the highest concept of the present invention are described as optional constituent elements.

  Each figure is a schematic diagram and is not necessarily shown strictly. Moreover, in each figure, the same code | symbol is attached | subjected to substantially the same structure, and the overlapping description may be abbreviate | omitted or simplified.

  Hereinafter, the illumination device according to the embodiment will be described with reference to the drawings.

(Embodiment 1)
First, the outline of the configuration of the lighting apparatus according to Embodiment 1 will be described with reference to FIGS. 1 and 2.

  FIG. 1 is a perspective view showing a basic structure of lighting apparatus 10 according to Embodiment 1. FIG.

  FIG. 2 is an exploded perspective view corresponding to FIG.

  As shown in FIGS. 1 and 2, the lighting apparatus 10 according to Embodiment 1 includes a base portion 12, a light emitting module 20 disposed on the base portion 12, and a plurality of light emitting modules 20 that are fixed to the base portion 12. A holder 30.

  Each of the plurality of holders 30 includes a contact terminal 40 electrically connected to the light emitting module 20, and a holding unit that holds the light emitting module 20 in a cantilevered state when the holder 30 is not attached to the base portion 12. 35.

  In addition, the illuminating device 10 may be provided with other members, such as a translucent cover arrange | positioned so that the light emitting module 20 may be covered other than the member illustrated in FIG. 1 and FIG. However, in order to clearly describe the characteristics of the illumination device 10 according to the present embodiment, illustration and description of these other members are omitted.

  In the present embodiment, one light emitting module 20 is disposed on the base portion 12, but the number of light emitting modules 20 is not limited, and a plurality of light emitting modules 20 are disposed side by side on the base portion 12. Also good.

  The illuminating device 10 according to the present embodiment is, for example, an illuminating device used as a so-called downlight that is embedded in a ceiling with the light emitting module 20 facing downward. Although there is no particular limitation on the posture when using the illuminating device 10, in the present embodiment, the illuminating device 10 is illustrated and described in a state where the light emitting module 20 faces upward (Z-axis positive orientation).

  The light emitting module 20 includes a substrate 22 and a light emitting unit 21 disposed on the main surface 22 a of the substrate 22. The substrate 22 is a rectangular flat substrate in the present embodiment. The substrate 22 is preferably made of a material having high thermal conductivity, for example, an alumina substrate made of alumina.

  As the substrate 22, in addition to the alumina substrate, other ceramic substrates such as aluminum nitride, metal substrates such as aluminum and copper, resin substrates, or metal base substrates having a laminated structure of metal and resin, etc. Various substrates can be employed.

  The light emitting unit 21 disposed on the main surface 22a of the substrate 22 has one or more light emitting elements that emit light forward.

  In the present embodiment, the light emitting unit 21 includes one or more LED chips 21 a mounted on the substrate 22 and a sealing member. The LED chip 21a is mounted on the main surface 22a of the substrate 22 by die bonding or the like.

  Further, in the present embodiment, the sealing member collectively seals the plurality of LED chips 21a arranged in a matrix.

  As the LED chip 21a, for example, a blue LED chip that emits blue light having a center wavelength of 440 nm to 470 nm is used.

  Moreover, as a sealing member, while sealing LED chip 21a and protecting LED chip 21a, fluorescent substance containing resin which is resin containing the fluorescent substance which carries out wavelength conversion of the light from LED chip 21a is illustrated.

  Specifically, for example, when the LED chip 21a is a blue LED as a sealing member, YAG (yttrium, aluminum, garnet) -based yellow phosphor particles are dispersed in a silicone resin in order to obtain white light. A phosphor-containing resin can be used. As a result, white light is emitted from the light emitting unit 21 (sealing member) by the yellow light wavelength-converted by the phosphor particles and the blue light from the LED chip 21a.

  Moreover, the outer diameter of the light emission part 21 is 5 mm-50 mm, for example. In the lighting device 10 according to the present embodiment, the light emitting unit 21 having an outer diameter of 15 mm is disposed in the light emitting module 20.

  In addition, in this Embodiment, although the circular light emission part 21 was illustrated, the whole shape of the light emission part 21 is not limited to a round shape. For example, a square shape may be adopted as the overall shape of the light emitting unit 21.

  Moreover, there is no limitation in particular in the aspect of sealing the some LED chip 21a by a sealing member. For example, the plurality of LED chips 21a may be individually sealed, and the plurality of LED chips 21a may be sealed for each line.

  Further, in the case where it is not necessary to convert the wavelength of light from the LED chip 21a, one or more LED chips 21a disposed on the substrate 22 may not be sealed with the sealing member.

  A pair of electrodes 24 are disposed on the main surface 22 a of the substrate 22. Electric power for light emission is supplied to each of the plurality of LED chips 21 a included in the light emitting unit 21 via a wiring pattern (not shown) connected to the electrodes 24.

  As described above, the light emitting module 20 having the LED chip 21 a as a light source is fixed to the base portion 12.

  The base portion 12 is a metal column base in the present embodiment, and the light emitting module 20 is arranged in surface contact with the arrangement surface 13 to efficiently release heat generated in the light emitting module 20. Can do. That is, the base portion 12 is a member that functions as a heat sink that diffuses the heat of the light emitting module 20.

  In addition, the shape of the base part 12 is not limited to a cylindrical base, For example, a rectangular parallelepiped may be sufficient. Moreover, the base part 12 may have a wall part surrounding the area | region where the light emitting module 20 is arrange | positioned, for example.

  In the present embodiment, the light emitting module 20 is fixed to the base portion 12 by the two holders 30. Specifically, the two holders 30 are arranged so as to hold two locations on the diagonal line of the rectangular light emitting module 20.

  The two holders 30 are the same component in the present embodiment. For example, the right holder 30 and the left holder 30 in FIG. 1 can be replaced and arranged. That is, the characteristics of the holder 30 described below are applied to both of the two holders 30 included in the lighting device 10.

  The holder 30 includes a main body 31 on which the contact terminals 40 are arranged. In the present embodiment, the main body 31 has a space for accommodating an external electric wire 90 that is electrically connected to the contact terminal 40.

  Specifically, the main body 31 has an insertion port 32 formed on one side surface, and the electric wire 90 inserted from the insertion port 32 is electrically connected to the contact terminal 40 inside the main body 31. Is done.

  The electric wire 90 is connected to, for example, a lighting device disposed on the back side of the ceiling. For example, a hole (not shown) provided in the base portion 12 or a position near the embedding position of the base portion 12 of the ceiling. It is pulled out to the arrangement surface 13 side of the base portion 12 through the hole. The lighting device is a device that converts, for example, a commercial power source into electric power having characteristics suitable for light emission of the light emitting module 20.

  That is, the light emitting module 20 electrically connected to the contact terminal 40 receives power supplied from the electric wire 90 through the contact terminal 40 and emits light by the received power.

  The main body 31 further has a holding part 35. In the present embodiment, the holding part 35 holds the light emitting module 20 by sandwiching a part of the light emitting module 20 between the contact part 41 of the contact terminal 40 and the support plate part 50. The detail of the holding | maintenance part 35 is later mentioned using FIGS.

  The main body 31 is manufactured by molding a synthetic resin having insulation properties such as PBT (polybutylene terephthalate).

  As shown in FIG. 2, the body portion 31 is provided with a screw attachment portion 33 through which the screw 80 passes. The mounting surface 13 of the base portion 12 is provided with a holder mounting portion 13a formed in a recessed shape, and a screw hole 15 into which a screw 80 is screwed is formed in the holder mounting portion 13a. By attaching the holder 30 to the recessed holder attachment portion 13a, the light emitting module 20 in a state where the support plate portion 50 is in contact with the back surface 22b can be brought into surface contact with the arrangement surface 13.

  For example, the arrangement surface 13 of the base portion 12 has a contact surface portion that is higher than the mounting position of the light emitting module 20 by the thickness of the support plate portion 50, so that the light emitting module 20 faces the arrangement surface 13. You may make it contact.

  The light emitting module 20 is disposed on the base portion 12 in a state where the holder 30 is attached to each of the two end portions where the electrodes 24 are disposed, and these holders 30 are screwed to the base portion 12 by screws 80. Thus, it is fixed to the base portion 12.

  Next, a characteristic structure of the holder 30 according to the present embodiment will be described with reference to FIGS.

  FIG. 3 is a perspective view showing a state in which the holder 30 according to the first embodiment holds the light emitting module 20 in a cantilevered state.

  FIG. 4 is a side view illustrating an outline of the holding unit 35 according to the first embodiment.

  FIG. 5 is a diagram illustrating the operation of the holding unit 35 according to the first embodiment.

  5 illustrates a side surface when the right holder 30 in FIG. 1 is cut along an XZ plane passing through a position on the left side of the contact terminal 40 so that the operation of the holding portion 35 can be visually recognized. The light emitting module 20 is shown in a side view. These matters also apply to FIGS. 6 and 7 described later.

  As shown in FIG. 3, the holder 35 included in the holder 30 can hold the light emitting module 20 in a cantilevered state when the holder 30 is not attached to the base portion 12.

  Specifically, as shown in FIG. 4, the holding unit 35 includes a part of the light emitting module 20 on the side of the back surface 22 b that is a surface in contact with the base unit 12, and the main surface opposite to the back surface 22 b. By sandwiching from the side of 22a, the light emitting module 20 is held in a cantilevered state.

  That is, the holding unit 35 holds the light emitting module 20 by sandwiching a part of the light emitting module 20 in the thickness direction. Thereby, the light emitting module 20 can be stably held.

  In the present embodiment, more specifically, the holding portion 35 faces the contact portion 41, which is a portion that contacts the electrode 24 provided on the main surface 22 a of the light emitting module 20 in the contact terminal 40. And a support plate portion 50 disposed at the position. The holding part 35 holds the light emitting module 20 in a cantilevered state by sandwiching a part of the light emitting module 20 (an end where the electrode 24 is disposed) between the contact part 41 and the support plate part 50.

  That is, the part (contact part 41) which contacts the light emitting module 20 in the contact terminal 40 having elasticity is used as a member for sandwiching a part of the light emitting module 20, thereby holding the light emitting module 20, for example. The structure for is simplified.

  In addition, the holding unit 35 according to the present embodiment further has a mechanism for improving the stability of mechanical and electrical connection between the holder 30 and the light emitting module 20.

  Specifically, as shown in FIG. 2 and FIG. 5 described above, the holding unit 35 is configured so that the holder 30 contacts the light emitting module 20 with the contact surface between the light emitting module 20 and the base unit 12 (that is, the back surface 22b). ) To sandwich a part of the light emitting module 20. Further, the contact terminal 40 receives the force from the light emitting module 20 when the holder 30 is moved in a direction parallel to the back surface 22 b with respect to the light emitting module 20, thereby moving the contact portion 41 toward the support plate portion 50. Arranged to move.

  That is, in the holding part 35 according to the present embodiment, the contact part 41 is pressed against the electrode 24 using the relative movement of the light emitting module 20 and the holder 30 for holding the light emitting module 20 on the holder 30. Structure is adopted.

  More specifically, as shown in FIGS. 5A and 5B, the holding unit 35 further moves the light emitting module when the holder 30 is moved in a direction parallel to the back surface 22 b with respect to the light emitting module 20. 20 has a button 60 that moves when pressed. In this case, the contact terminal 40 receives force from the light emitting module 20 via the button 60.

  As shown in FIGS. 5A and 5B, the button 60 is inclined to the opposite side with respect to the traveling direction (the direction parallel to the back surface 22b of the light emitting module 20 (the negative direction of the X axis in FIG. 5)). And has a function of converting the force received from the light emitting module 20 in the vertical direction (Z-axis positive direction in FIG. 5).

  Further, as shown in FIG. 5A, the contact terminal 40 has a button contact portion 42 at the end opposite to the contact portion 41 within the holder 30, which is an elastic member (in this embodiment, The spring 70 is biased downward.

  The contact terminal 40 is supported by a terminal support portion 37 of the holder 30 at a position of a leaf spring portion 43 that connects the button contact portion 42 and the contact portion 41.

  When the button 60 comes into contact with the button contact portion 42 of the contact terminal 40 in this state, the button contact portion 42 resists the urging force of the elastic member 70 as shown in FIG. Move upward.

  Thereby, the contact terminal 40 rotates in the clockwise direction in FIG. That is, the contact terminal 40 operates to move the contact portion 41 in the direction of the support plate portion 50.

  As a result, the contact portion 41 is pressed against the electrode 24 by the elastic force of the leaf spring portion 43, whereby the end portion of the light emitting module 20 where the electrode 24 is disposed is connected to the contact portion 41 and the support plate portion 50. It will be in a state of being sandwiched between.

  That is, the stability of the mechanical and electrical connection between the light emitting module 20 and the holder 30 that holds the light emitting module 20 in a cantilever state is improved.

  Further, as shown in FIG. 5B, when the light emitting module 20 is completely pushed into the holder 30, a stable connection state between the contact portion 41 and the electrode 24 is obtained. That is, as shown to (a) of FIG. 5, in the state which the contact part 41 exists in a position higher than the electrode 24, the operation | movement for the attachment to the light emitting module 20 of the holder 30 can be started.

  Therefore, for example, the electrode 24 is prevented from receiving an excessive frictional force from the contact portion 41 due to the relative movement of the holder 30 and the light emitting module 20 when the holder 30 is attached to the light emitting module 20. As a result, the occurrence of damage to the electrode 24 or the contact portion 41 due to the electrode 24 rubbing against the contact portion 41 is suppressed.

  In the present embodiment, for example, as shown in FIG. 2, two holders 30 are attached to the light emitting module 20 corresponding to the two electrodes 24 of the light emitting module 20. That is, each of the two holders 30 is attached to the light emitting module 20 by the procedure shown in FIG.

  As described above, the lighting apparatus 10 according to the present embodiment includes the base portion 12, the light emitting module 20 disposed on the base portion 12, and the plurality of holders 30 that fix the light emitting module 20 to the base portion 12. Prepare. Each of the plurality of holders 30 holds the light emitting module 20 in a cantilevered state when the contact terminal 40 is electrically connected to the electrode 24 of the light emitting module 20 and the holder 30 is not attached to the base portion 12. Holding part 35.

  According to this configuration, simply speaking, each of the plurality of holders 30 can be temporarily fixed to the light emitting module 20, thereby handling the plurality of holders 30 and the light emitting module 20 as an integral structure. Can do. That is, the plurality of integrated holders 30 and the light emitting module 20 can be arranged at predetermined positions on the base portion 12, and in this state, each holder 30 can be fixed to the base portion 12 with the screws 80.

  That is, each of the two holders 30 of the present embodiment can supply power to the light emitting module 20 and fix it to the base portion 12. Each of the two holders 30 can hold the light emitting module 20 in a cantilevered state, that is, can be attached to the light emitting module 20 independently of the other holder 30 and the base portion 12.

  Thus, as in the past, for example, the lighting device 10 can be easily and without having to perform a complicated operation of sequentially attaching a plurality of holders to the base portion while manually pressing the light emitting module disposed on the base portion. Can be assembled.

  That is, according to the holder 30 according to the present embodiment, it is possible to supply power to the light emitting module 20 and to facilitate the work for fixing the light emitting module 20 to the base portion 12.

  Moreover, according to the illuminating device 10 which concerns on this Embodiment, the attachment of the holder 30 which supplies the electric power to the light emitting module 20, and fixes to the base part 12 is easy.

  The structure of the holder 30 according to the first embodiment may be other than the structure shown in FIGS. Accordingly, various modifications of the holder 30 will be described with reference to FIGS. 6 to 8 with a focus on differences from the first embodiment.

(Modification 1 of Embodiment 1)
In the first embodiment, as shown in FIG. 5, in the movable contact terminal 40, the button contact portion 42 receives a biasing force from the elastic member 70. Thereby, the rattling of the contact terminal 40 in the state in which the holding | maintenance part 35 is not holding the light emitting module 20 is suppressed. In addition, the elastic member 70 is elastically deformed by the force received from the button 60, whereby the contact terminal 40 can be operated so that the contact portion 41 moves in the direction of the support plate portion 50.

  When such a structure is employed, the holder 30 may have a mechanism for preventing the button 60 from returning, considering that the button 60 is pushed back by the urging force of the elastic member 70, for example.

  FIG. 6 is a side view of the holder 30 according to the first modification of the first embodiment.

  The holder 30 shown in FIG. 6 includes a lock mechanism unit 61 that locks the button 60 so that the button 60 does not move in the reverse direction when the button 60 is moved by being pressed by the light emitting module 20.

  The lock mechanism 61 has a protrusion 62 protruding from the button 60 and a recess 63 provided on the main body 31 and hooked on the protrusion 62.

  Thus, the holder 30 has the lock mechanism portion 61, so that the button 60 that causes the contact terminal 40 to generate an elastic force that presses the contact portion 41 against the electrode 24 does not return to the original position. The movement of the button 60 can be restricted. As a result, the possibility of releasing the state in which the light emitting module 20 of the holding unit 35 is held due to external factors such as vibration is reduced.

(Modification 2 of Embodiment 1)
In the first embodiment, the elastic member 70 involved in the operation of the movable contact terminal 40 is a helical spring. However, the elastic member 70 may be another type of spring or an elastic body such as rubber.

  A part of the contact terminal 40 may function as the elastic member 70.

  FIG. 7 is a side view showing the shape of the contact terminal 40 according to the second modification of the first embodiment.

  The contact terminal 40 shown in FIG. 7 has a button contact portion 42a on the opposite side of the contact portion 41 with the leaf spring portion 43 interposed therebetween, and is formed in a U-shape, whereby the elasticity according to the first embodiment. The same function as the member 70 can be exhibited.

  That is, the button abutting portion 42 a suppresses rattling of the contact terminal 40 in a state where the holding portion 35 does not hold the light emitting module 20 and elastically deforms, whereby the contact portion 41 moves in the direction of the support plate portion 50. Thus, the contact terminal 40 can be operated.

  Thus, by realizing the elastic member 70 as a part of the contact terminal 40 instead of a separate part, the number of parts of the lighting device 10 is reduced, and for example, the production efficiency of the lighting device 10 is improved.

(Modification 3 of Embodiment 1)
In the first embodiment, the holding part 35 sandwiches the light emitting module 20 between the contact part 41 that is a part of the contact terminal 40 and the support plate part 50 that is disposed at a position facing the contact part 41. . In addition, the holder 30 is temporarily fixed to the light emitting module 20.

  However, the holding unit 35 may temporarily fix the holder 30 to the light emitting module 20 by sandwiching the light emitting module 20 without using the contact terminal 40.

  FIG. 8 is a side view of the holder 30 according to the third modification of the first embodiment.

  The holder 30 according to the third modification of the first embodiment shown in FIG. 8 cantilever the light emitting module 20 by sandwiching a part of the light emitting module 20 from the back surface 22b side and the main surface 22a side. It has the holding | maintenance part 35a hold | maintained in this state. This feature is common to the holding unit 35 according to the first embodiment.

  However, the holding portion 35a according to this modification includes a main surface contact portion 39 that contacts the main surface 22a of the light emitting module 20, and a support plate portion 52 that is disposed at a position facing the main surface contact portion 39. It has the feature in having.

  Specifically, the main surface contact portion 39 is a member made of resin or the like, which is molded integrally with the main body portion 31 or attached to the main body portion 31, for example. That is, in the holding portion 35a according to the present modification, a structure in which a part of the light emitting module 20 is sandwiched using a member different from the contact terminal 40 is employed.

  Thus, in the present modification, the main surface contact portion 39 included in the holding portion 35 a is a dedicated member for holding the light emitting module 20.

  That is, the holding part 35a does not have a function of electrically connecting the holder 30 and the light emitting module 20, but has a function of holding the light emitting module 20 in a cantilever state (temporarily fixing the light emitting module 20 to the holder 30). It is a component of the holder 30 which has.

  Therefore, the holding part 35a can be formed in a shape and size more suitable for holding the light emitting module 20 according to, for example, the shape of the substrate 22 of the light emitting module 20. In addition, the material of the holding unit 35a can be selected from various materials.

  The holder 30 may include the holding unit 35 according to the first embodiment and the holding unit 35a according to this modification. Thereby, for example, after the holder 30 is attached to the light emitting module 20 and before the holder 30 is attached to the base portion 12, the possibility that the holder 30 is detached from the light emitting module 20 is reduced.

(Embodiment 2)
In the first embodiment, the mechanical movement and electrical connection between the holder 30 and the light emitting module 20 are performed using the relative movement of the holder 30 and the light emitting module 20 when the holder 30 is attached to the light emitting module 20. Stability is improved.

  However, for example, the stability of the mechanical and electrical connection between the holder 30 and the light emitting module 20 may be improved by using another member used for assembling the lighting device 10.

  For example, the holder 30 is fixed to the base portion 12 by being fastened to the base portion 12 with the screws 80 as described above. Therefore, the stability of mechanical and electrical connection between the holder 30 and the light emitting module 20 may be improved using the force generated by the fastening of the screw 80.

  Therefore, as a second embodiment, a holder 130 that uses the screw 80 to improve the stability of the connection will be described focusing on the difference from the first embodiment.

  FIG. 9 is a diagram illustrating the operation of the holding unit 135 in the holder 130 according to the second embodiment.

  FIG. 10 is a diagram illustrating a shape example of the moving plate 180 according to the second embodiment.

  In FIG. 9, the holder 130 according to the second embodiment is cut along the XZ plane passing through the position on the near side (the Y-axis negative side) from the contact terminal 40 so that the operation of the holding unit 135 can be visually recognized. The side view of the case is illustrated. Further, a part of the light emitting module 20 is shown in a side view. Furthermore, illustration of the whole illuminating device 10 and base part 12 which concern on this Embodiment is abbreviate | omitted. These matters also apply to FIG. 11 described later.

  The holder 130 shown in FIG. 9 is one of a plurality of holders 130 that perform power supply to the light emitting module 20 and fixation to the base portion 12 in the lighting device 10, as with the holder 30 according to the first embodiment. is there.

  The holder 130 has a contact terminal 140 and a holding part 135. The holding unit 135 holds the light emitting module 20 by sandwiching a part of the light emitting module 20 in the thickness direction.

  In the present embodiment, more specifically, the holding portion 135 includes a contact portion 141 that is a portion that contacts the electrode 24 of the light emitting module 20 in the contact terminal 140 and a support plate that is disposed at a position facing the contact portion 141. Part 150. The holding unit 135 holds the light emitting module 20 in a cantilever state by sandwiching a part of the light emitting module 20 (an end portion on which the electrode 24 is disposed) between the contact portion 141 and the support plate unit 150.

  That is, the holder 130 according to the second embodiment has structural features in common with the holder 30 according to the first embodiment.

  However, the holder 130 according to the second embodiment is applied in that the contact terminal 140 is operated so as to move the contact portion 41 in the direction of the support plate portion 150 using the force received from the screw 80. This is different from the holder 30 according to the first embodiment.

  Specifically, the holder 130 according to the second embodiment includes a main body portion 31 in which a screw attachment portion 133 that allows a screw 80 for fixing the holder 130 to the base portion 12 to pass therethrough is formed. The contact terminal 140 is arranged to move the contact portion 141 toward the support plate portion 150 by receiving a force from the screw 80 when the holder 130 is fixed to the base portion 12 with the screw 80.

  That is, in the second embodiment, the holding force in the holding unit 135 is improved by using the screws 80 necessary for assembling the lighting device 10, and thereby the mechanical and electrical connection between the holder 130 and the light emitting module 20 is improved. Connection stability is improved.

  More specifically, the holder 130 according to the present embodiment further includes a moving plate 180 that moves by being pressed by the screw 80 when the holder 130 is fixed to the base portion 12 by the screw 80. 140 receives force from the screw 80 via the moving plate 180.

  As shown in FIGS. 9A and 9B, the moving plate 180 is arranged to be movable in the vertical direction.

  Further, as shown in FIG. 10A, for example, the moving plate 180 is formed with a through hole 180a having a size that allows the shaft portion of the screw 80 to pass therethrough and does not allow the head portion to pass therethrough. Alternatively, as shown in FIG. 10B, for example, the moving plate 180 is formed with a notch portion 180b having a size that allows the shaft portion of the screw 80 to pass therethrough and does not allow the head portion of the screw 80 to pass through. That is, the moving plate 180 has a shape in which the head of the screw 80 contacts the moving plate 180 when the screw 80 moves downward.

  Further, as shown in FIG. 9A, the contact terminal 140 has an elastic member (in this embodiment, the movable plate abutting portion 142 at the end opposite to the contact portion 141 in the holder 130. The coil spring 170 is biased upward. The moving plate 180 is held by the holder 130 while being pushed up by the elastic member 170 together with the moving plate contact portion 142.

  When the head of the screw 80 abuts against the moving plate abutting portion 142 of the contact terminal 140 in this state, the moving plate abutting portion 142 urges the elastic member 170 as shown in FIG. Move down against

  As a result, the contact terminal 140 moves downward. That is, the contact terminal 140 operates to move the contact portion 141 toward the support plate portion 150.

  As a result, the pressing force of the contact portion 141 against the electrode 24 is increased, whereby the end portion of the light emitting module 20 where the electrode 24 is disposed is sandwiched between the contact portion 141 and the support plate portion 150. .

  That is, the stability of the mechanical and electrical connection between the light emitting module 20 and the holder 30 that holds the light emitting module 20 in a cantilever state is improved.

  In the state where the holder 130 is not fixed to the base portion 12 with the screw 80, the electrode 24 of the light emitting module 20 is arranged by the contact portion 141 and the support plate portion 150 as shown in FIG. The light emitting module 20 is held in a cantilevered manner by sandwiching the end portion.

  That is, in the present embodiment, the holder 130 is temporarily fixed to the light emitting module 20 by the elastic force of at least one of the contact terminal 140 and the support plate portion 150.

  Further, the two holders 130 are attached (temporarily fixed) to the light emitting module 20 by the structure shown in FIG. 9A corresponding to each of the two electrodes 24 of the light emitting module 20.

  That is, the plurality of holders 130 and the light emitting module 20 integrated by temporarily fixing the plurality of holders 130 to the light emitting module 20 are arranged at predetermined positions of the base portion 12, and in this state, each holder 130 is fixed to the base. It can be fixed to the part 12 with a screw 80. Further, by fixing with the screw 80, the stability of the electrical connection between the contact terminal 140 of each holder 130 and the electrode 24 is maintained.

  Therefore, according to the holder 130 according to the present embodiment, it is possible to supply power to the light emitting module 20 and to facilitate the work for fixing the light emitting module 20 to the base portion 12.

  Moreover, according to the illuminating device 10 of this Embodiment, the attachment of the holder 130 which supplies electric power to the light emitting module 20, and fixes to the base part 12 is easy.

  In the holder 130 according to the present embodiment, as shown in FIG. 9, the screw attachment portion 133 and the contact terminal 140 are arranged side by side in the X-axis direction, but the screw attachment portion 133 and the contact terminal are arranged. For example, 140 may be arranged side by side in the Y-axis direction.

  That is, the contact terminal 140 may be disposed so as to move the contact portion 141 in the direction of the support plate 150 using the force received from the screw 80. That is, it is only necessary that the screw attachment portion 133 and the contact terminal 140 are arranged at a position that satisfies this condition.

  Note that the structure of the holder 130 according to the second embodiment may be other than the structure shown in FIG. Therefore, a modified example of the holder 130 will be described with reference to FIG. 11 with a focus on differences from the second embodiment.

(Modification of Embodiment 2)
In the second embodiment, the elastic member 170 involved in the operation of the movable contact terminal 140 is a helical spring. However, the elastic member 170 may be another type of spring or an elastic body such as rubber.

  A part of the contact terminal 140 may function as the elastic member 170.

  FIG. 11 is a side view showing the shape of the contact terminal 140 according to a modification of the second embodiment.

  The contact terminal 140 shown in FIG. 11 has a U-shaped moving plate contact portion 142a opposite to the contact portion 141 with the leaf spring portion 143 interposed therebetween. The same function as the elastic member 170 can be exhibited.

  In other words, the moving plate abutting portion 142 a suppresses rattling of the contact terminal 140 in a state where the holding portion 135 does not hold the light emitting module 20 and elastically deforms, so that the contact portion 141 moves in the direction of the support plate portion 50. The contact terminal 140 can be operated to move.

  Thus, by realizing the elastic member 170 as a part of the contact terminal 140 instead of a separate part, the number of parts of the lighting device 10 is reduced, and for example, the production efficiency of the lighting device 10 is improved.

(Other embodiments)
Although the lighting device according to the present invention has been described based on the above-described embodiment and the modifications thereof, the present invention is not limited to the embodiment and the like.

  For example, in the first embodiment, the light emitting module 20 is fixed to the base portion 12 by the two holders 30. However, the number of holders 30 used for fixing the light emitting module 20 to the base portion 12 is not particularly limited.

  For example, when the light emitting module 20 having a relatively small size is fixed to the base portion 12, the number of the holders 30 may be one. In this case, the electrode 24 (for example, refer to FIG. 2) that is not electrically connected to the holder 30 may be supplied with power from a member different from the holder 30. In this case, the member and the holder 30 may obtain a fixing force for stably fixing the light emitting module 20 to the base portion 12.

  For example, when fixing the light emitting module 20 having a relatively large size or weight to the base portion 12, three or more holders 30 may be used. For example, the holder 30 may be disposed at each of the four corners of the rectangular light emitting module 20 in plan view. In this case, each of the at least two holders 30 that are not electrically connected to the electrode 24 does not play a role of supplying power to the light emitting module 20 and may be used only for fixing the light emitting module 20.

  Further, the holder 30 is assumed to hold the light emitting module 20 in a cantilever state by the holding portion 35 sandwiching a part of the light emitting module 20. However, the holding unit 35 may hold the light emitting module 20 by other methods. The holder 30 may hold a part of the light emitting module 20 using an adhesive, a magnet, a suction cup, or the like that the holding unit 35 has.

  The supplementary matters regarding the holder 30 according to the first embodiment are also applied to the holder 130 according to the second embodiment.

  In addition, the holder 130 according to the second embodiment may include the holding portion 35a according to the third modification of the first embodiment. That is, the holder 130 may have a structure for temporarily fixing the light emitting module 20 without using the contact terminal 140. Accordingly, for example, the holder 130 can be temporarily fixed to the light emitting module 20 by the relatively strong clamping force of the holding portion 35 a without depending on the elastic force of the contact terminal 140.

  The light emitting unit 21 included in the light emitting module 20 includes one or more LED chips mounted on the main surface 22a of the substrate 22. However, the light emitting unit 21 may include a surface mount device (SMD) LED instead of the LED chip. The SMD type LED is a package type LED element in which an LED chip is mounted in a resin-molded cavity and a phosphor-containing resin is disposed in the cavity.

  Moreover, the light emitting element which the light emitting module 20 employ | adopts as a light source is not limited to LED, Light emitting elements, such as semiconductor light emitting elements, such as a semiconductor laser, organic EL (Electro Luminescence), or inorganic EL, may be employ | adopted.

  Furthermore, the light emitting element employed as the light source by the light emitting module 20 may not be a semiconductor light emitting element, and for example, a fluorescent tube may be employed.

  Other configurations and functions in the above-described embodiments and modifications can be arbitrarily selected without departing from the spirit of the present invention, and forms obtained by making various modifications conceived by those skilled in the art with respect to the above-described embodiments and modifications. Embodiments realized by combining these are also included in the present invention.

DESCRIPTION OF SYMBOLS 10 Illuminating device 12 Base part 13 Arrangement | positioning surface 20 Light emitting module 22a Main surface 22b Back surface 24 Electrode 30,130 Holder 31 Main-body part 35,35a, 135 Holding part 40,140 Contact terminal 41,141 Contact part 50,52,150 Support plate Part 60 button 61 lock mechanism part 80 screw 180 moving plate

Claims (3)

One of a plurality of holders for fixing the light emitting module disposed on the base portion to the base portion by being attached to the base portion,
A contact terminal electrically connected to the light emitting module;
A holding portion for holding the light emitting module in a cantilevered state in a state where the holder is not attached to the base portion ;
The holding unit cantilever the light emitting module by sandwiching a part of the light emitting module from a back surface side that is a surface in contact with the base portion and a main surface side opposite to the back surface. Hold in the state of
The holding part is
In the contact terminal, a contact part that is a part that contacts an electrode provided on the main surface of the light emitting module;
A support plate portion disposed at a position facing the contact portion,
Holding the light emitting module in a cantilever state by sandwiching a part of the light emitting module between the contact portion and the support plate portion,
The holding unit sandwiches a part of the light emitting module by moving the holder in a direction parallel to the back surface of the light emitting module with respect to the light emitting module,
The contact terminal receives the force from the light emitting module when the holder is moved in a direction parallel to the back surface with respect to the light emitting module, thereby moving the contact portion toward the support plate. Are arranged so that
The holding unit further includes a button that is moved by being pressed by the light emitting module when the holder is moved in a direction parallel to the back surface with respect to the light emitting module.
The contact terminal receives a force from the light emitting module through the button.
holder. Further, the button, when moved by being pushed to the light emitting module, the holder of claim 1 further comprising a locking mechanism for locking such that the button does not move in the opposite direction. A base part;
A light emitting module disposed on the base portion;
Ru and a holder of a plurality of claims 1 or 2, wherein for fixing the light emitting module to the base portion,
Lighting device.

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