JP4330748B2 - Light source device and spot light source device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a light source device that emits light and a spot light source device.
[0002]
[Prior art]
Conventionally, in a spot light source device, for example, as disclosed in JP-A-9-281361, light emitted from a discharge tube (lamp) is reflected and collected by a reflecting mirror such as an elliptical collecting mirror, The light is guided to the emission port and emitted to the outside by a light guide means (light guide) such as a fiber connected to the emission port. In such a spot light source device, when the discharge tube is installed, it is necessary to connect the electrode of the discharge tube to the electrode terminal of the starter installed in advance in the spot light source device. A method for installing the discharge tube will be described with reference to FIG.
[0003]
FIG. 8 is a perspective view showing a state in which a discharge tube is installed (or replaced) in a conventional UV spot light source device. The UV spot light source device 9 includes a light guide 9b which is a light guide means connected to the emission port 9a. When the cover 90 of the UV spot light source device 9 is removed, a lamp mounting opening 91 and a work window 92 appear. The discharge tube 93 has a cathode terminal 93a at one end and an anode terminal 93b at the other end, and a flange 94 for positioning the discharge tube 93 is provided on the anode terminal 93b side.
[0004]
When the discharge tube 93 is attached to the UV spot light source device 9, it is necessary to connect the cathode terminal 93 a and the anode terminal 93 b to the wiring from the starter 99 that is installed separated from the partition plate 98. Therefore, the user inserts the discharge tube 93 into the lamp mounting opening 91 and fixes the flange 94, and then inserts his / her hand through the work window 92 and connects the lead wire 95 provided on the cathode terminal 93a to the cathode terminal 96 on the starter 99 side. And fixing with screws 97.
[0005]
[Problems to be solved by the invention]
The starter (igniter) applies a high voltage to light (start) the discharge tube. At this time, the lighting energy applied to the discharge tube is very high, and therefore, energy loss (voltage drop) may occur due to leakage current from the wiring. Therefore, in order to suppress energy loss caused by wiring from the starter to the terminal of the discharge tube and efficiently supply lighting energy, it is necessary to install the starter as close as possible to the discharge tube.
[0006]
On the other hand, the starter is usually potted with resin and is entirely covered with a metal box, but the surface on the discharge tube side where the electrode terminal is provided in the metal box is the terminal. The opening is used to avoid discharge. However, if it is placed facing the discharge tube while being opened, the resin will be deteriorated by the light rays from the discharge tube. Therefore, in FIG. 8, a sorting plate 98 that blocks light rays is arranged between the starter 99 and the discharge tube 93, and a ring-shaped insulating member 98 a is installed on the sorting plate 98. The cathode terminal 96 on the starter 99 side is inserted through the insulating member 98 a and connected to the lead wire 95 of the discharge tube 93.
[0007]
However, in the spot light source device 9 described above, the section plate 98 other than the ring-shaped insulating member 98a is made of metal. Therefore, the arrangement distance from the partition plate to the starter, which is necessary for insulation from the starter, cannot be sufficiently shortened, resulting in a problem that the wiring from the starter terminal to the discharge tube terminal becomes long. Further, the cathode terminal 96 on the starter 99 side is merely inserted through the insulating member 98a and is not positioned with respect to the sorting plate 98. Therefore, the positioning with the discharge tube 93 is not sufficient. For example, when the position of the cathode terminal 96 is deviated, the arrangement of the starter 99 must be adjusted. Such a problem also applies to light source devices other than spot light source devices.
[0008]
The present invention has been made in view of such circumstances, and it is an object of the present invention to provide a light source device and a spot light source device in which disposition at a short distance between the discharge tube and the starter and suitable electrical connection are realized. And
[0009]
[Means for Solving the Problems]
In order to achieve such an object, a light source device according to the present invention stores therein a discharge tube that emits light, a reflection mirror that reflects light emitted from the discharge tube, and a discharge tube and a reflection mirror. In a light source device having a housing and an exit port provided on the exit surface of the housing for emitting light from the reflection mirror, the light source device has a drive region in which a drive device for driving and controlling the discharge tube is stored. A drive unit that operates the apparatus, an output region in which an emission port is exposed and control of emission of light to the outside is performed, and a light source unit that emits light, and a light source region in which a discharge tube and a reflection mirror are arranged; A partition plate for separating the drive unit and the light source unit, and on the drive unit side of the partition plate, a starter of a discharge tube installed so as to face an opening provided in the partition plate, and a partition plate Installed to cover the opening Insulation and plate, which is fixed to the light source side of the insulating plate, possess a connecting member for connecting one electrode electrically discharge pipe provided on the emission opening side of the reflecting mirror, an insulating plate The biasing means has a lead wire insertion port through which a lead wire electrically connecting the electrode terminal of the starter and the connection member is inserted, and biases the connection member so that the connection member presses one of the electrodes The connecting member is movably fixed to the insulating plate via a plate spring which is an urging means. The connecting member is made of a metal thin plate electrode connecting plate, and the plate spring is on the discharge tube side. The bent portion is bent at a right angle toward the upper side on the rear side, and the bent portion is fixed to the fixing portion of the electrode connection plate, and the plate spring and the insulating plate are fixed on the front end side of the plate spring. The plug provided on one electrode of the discharge tube is connected to the electrode connection of the electrode connection plate. It is pressed against the part, by electrodes connecting plates and the leaf spring is tilted, the electrode connection plate is urged by the leaf spring, the electrode connection portion and said Rukoto is pressed against the plug.
[0010]
In the above light source device, among the division plates separating the starter and the discharge tube, the entire portion facing the starter is set as an opening, and an insulating plate covering the opening is installed so as to constitute a part of the division plate is doing. At this time, the entire surface on which the electrode terminals of the starter are provided faces the insulating plate. This simultaneously protects the starter from light rays and insulates the starter's electrode terminals, etc., and installs the starter closer to the section plate (insulating plate). The wiring to the electrode can be shortened, and the occurrence of discharge and leakage current is suppressed.
[0011]
In addition, a connecting member that is electrically connected to the electrode of the discharge tube and supplies a voltage from the terminal of the starter is fixed to the insulating plate. At this time, since the connecting member is positioned and fixed with respect to the partition plate and the housing of the light source device, the connection member is connected in comparison with the method of inserting the terminal from the starter and connecting to the electrode of the discharge tube. Can be easy. Further, since the insulating plate serves as both the insulation of the electrode terminals of the starter and the insulation of the connecting member, it is not necessary to install a new insulating member for fixing the connecting member to the housing, and the configuration is simplified. .
[0012]
In addition, for the electrical connection between the starter terminal and the connecting member, the insulating plate has a lead wire insertion port through which the lead wire for electrically connecting the starter electrode terminal and the connecting member is inserted. is there.
[0013]
At this time, since the lead wire insertion port is provided in the insulating plate itself, the lead wire can be inserted and insulated without separately providing a ring-shaped insulating member or the like.
[0014]
Moreover, it is fixed so that the opening part of a division plate may be faced, and the metal shield member which covers the drive part side of a starter is provided.
[0015]
As described above, the starter is accommodated and installed in a shield member such as a metal box, so that the shield member functions as an electromagnetic shield around the starter, and the electromagnetic noise caused by the voltage generated in the starter is reduced. The influence on the driving device or the like can be reduced.
[0016]
The connecting member further includes biasing means for biasing the connecting member so as to press one of the electrodes.
[0017]
As a result, when the discharge tube is installed, the electrode of the discharge tube is pressed against the connection member with an appropriate pressure, and the electrical connection between the electrode of the discharge tube and the connection member can be suitably realized. Become. This eliminates the need to connect the lead wire provided on the electrode of the discharge tube to the terminal on the starter side, facilitates the installation of the discharge tube, and provides a work window for connecting the lead wire to the apparatus body. The device configuration is simplified such that it is not necessary.
[0018]
As a specific configuration of such an urging unit, for example, there is a configuration in which the connecting member is movably fixed to the insulating plate via a plate spring which is the urging unit.
[0019]
The housing includes a first surface that is substantially orthogonal to the emission surface, has a drive region therein, and a first housing portion that constitutes the drive portion, and a second surface that faces the first surface And a portion including the exit port in the exit surface, and having an output region and a light source region therein to form a light source unit and a second housing portion including a partition plate, The two housing parts are detachable with respect to the first housing part, and are configured to be attachable in any of two directions in which the position of the emission port is reversed with respect to the first housing part. .
[0020]
According to such a configuration, all the optical system components that need to be positioned by the optical axis and the like are installed on the light source unit side (second housing unit side). It is possible to easily mount and change the arrangement in two directions simply by starting over. In addition, since the sorting plate is fixed to the second housing part on the light source part side, even when the mounting direction is changed, the starter changes the position together with the discharge tube. Therefore, the starter is arranged at a short distance from the discharge tube regardless of the mounting direction.
[0021]
The insulating plate is preferably made of a ceramic plate. By using a ceramic plate member, it is possible to provide an insulating plate that sufficiently shields light and does not deteriorate even when light rays from the discharge tube are struck for a long time.
[0022]
The spot light source device according to the present invention is a light source device having the above-described configuration, and further includes a light guide that is connected to the emission port and guides the emitted light. For example, light can be efficiently emitted and used by connecting a light guide, such as a fiber, having a form and performance according to the application to the emission port.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of a light source device and a spot light source device according to the present invention will be described in detail with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted. Further, the dimensional ratios in the drawings do not necessarily match those described.
[0024]
FIG. 1 is a perspective view showing an outer surface configuration of a UV (ultraviolet light) spot light source device according to an embodiment of a spot light source device according to the present invention. The UV spot light source device 1 is a side emission type light source device in which an emission port 13 for emitting light is provided on one side surface (emission surface) of the housing 10. The housing 10 includes a lower housing 20 that is a first housing portion including a lower surface (first surface orthogonal to the emission surface) of the spot light source device, and an upper surface (second surface facing the first surface) of the spot light source device. The upper housing 30 which is the second housing part including the surface 2) is divided into two parts.
[0025]
Here, each surface of each of the housings 20 and 30 serving as the outer surface of the spot light source device or the connection surface (partition surface) of the housing portion is the front surface 20a of the lower housing 20 where the operation panel 14 is provided. The rear surface is 20b, the left side surface is 20c, the right side surface is 20d, the lower surface is 20e, and the upper surface connected to the upper housing 30 is 20f. Further, regarding the upper housing 30, the surface on which the emission port 13 is provided is the front surface 30a, the rear surface is 30b, the left side surface is 30c, the right side surface is 30d, the lower surface connected to the lower housing 20 is 30e, and the upper surface is 30f. And
[0026]
When referring to the entire housing 10 in which both housings 20 and 30 are connected, the surface on which the operation panel 14 is provided is the front surface. However, names such as front, rear, left, and right of these surfaces are given for convenience of explanation, and are not necessarily dependent on actual device configurations and functions such as front and rear directions in the spot light source device. In the following description, the front and rear, right and left are defined and used for each part in the housings 20 and 30 as well as the above-described surfaces.
[0027]
The spot light source device 1 is composed of a lower housing 20 and each element installed therein, and is composed of a drive unit 2 for operating the device, an upper housing 30 and each element installed therein, And a light source unit 3 that emits light.
[0028]
In the drive unit 2, a drive region for storing a drive device that drives and controls each part of the device such as a discharge tube is provided inside the lower housing 20, and a drive system of the spot light source device 1 is configured. On the front surface 20 a of the lower housing 20, an operation panel 14 is provided for an operator to instruct the driving device or the like to turn on / off the operation and the operation state.
[0029]
On the other hand, in the light source unit 3, an output region in which a shutter or the like for controlling the emission of light to the outside is installed inside the upper housing 30, and a light source region in which a discharge tube, a reflection mirror, and the like are arranged. The optical system of the spot light source device 1 is configured. The front surface 30a of the upper housing 30 is provided with an emission port 13 that is a substantially circular opening for emitting the generated ultraviolet light to the outside. In FIG. 1, a fiber insertion port 48 is attached to the emission port 13, and a fiber 49 is connected to the fiber insertion port 48 as a light guide. Thereby, the ultraviolet light is emitted from the spot light source device 1 to the outside.
[0030]
The spot light source device 1 shown in FIG. 1 includes a lower housing 20 and an upper housing 30 which are two parts constituting the housing 10, and thus a drive unit 2 and a light source unit 3 including each element installed therein. However, it is comprised so that attachment or detachment is possible (separation and mounting | wearing are possible). Further, regarding the mounting of the upper housing 30 to the lower housing 20, the mounting is performed in any arrangement in which the position of the emission port 13 provided on the front surface 30 a of the upper housing 30 is reversed with respect to the lower housing 20. And fixing is possible. Therefore, as shown in FIG. 1, in addition to the front emission type configuration in which the emission port 13 is on the same plane as the operation panel 14, a rear emission type configuration in which the emission port 13 is on the opposite surface to the operation panel 14 is adopted. It is also possible.
[0031]
Next, the internal configuration of the light source unit 3 will be described. The drive device installed in the drive region in the drive unit 2 is configured to include a power supply unit, a drive circuit, a control computer, and the like, and is connected to a discharge tube installed in the light source unit 3. Also, they are connected by necessary wiring. A description of a specific connection method between the drive unit 2 and the light source unit 3 will be omitted.
[0032]
FIG. 2 is a perspective view showing the internal configuration of the light source unit 3 with the upper housing 30 and the like partially broken and the internal cover 36 removed, and FIG. 3 is a perspective view showing the internal cover 36 attached. is there. FIG. 4 is a perspective view showing a configuration of the lower surface side of the light source unit 3. 2 to 4 show the light source unit 3 as viewed from the rear surface 30b side of the upper housing 30, and in particular, in FIGS. 2 and 3, a lamp replacement door, which will be described later, is shown for easy understanding of the internal configuration. 33 is shown in an opened state.
[0033]
As described above, the emission port 13 is provided on the front surface 30 a of the upper housing 30. Further, the rear surface 30 b is configured by an openable / closable lamp replacement door 33 for replacing the discharge tube 40 installed in the upper housing 30.
[0034]
The left side surface 30c, the right side surface 30d, and the upper surface 30f are configured by the upper cover 31. The upper cover 31 is detachable, and is fixed by screwing or the like on the side surface when necessary to perform operations such as adjustment of the optical system and replacement of parts other than replacement of the discharge tube 40. It is possible to remove 31 and perform these operations. Further, the lower surface 30 e is a surface connected to the lower housing 20. In the present embodiment, the lower surface 30e is configured by a housing partition plate 32 that covers substantially the entire surface and optically separates the drive unit 2 and the light source unit 3 (see FIG. 4).
[0035]
An output area B, a light source area C, and a ventilation area D are provided in the upper housing 30. FIG. 5 is a horizontal sectional view of the light source unit 3 shown in FIGS. 2 to 4 including the optical axis of light emission, and these region sections are also illustrated. In FIG. 5, the fiber insertion port 48 and the fiber 49 (see FIG. 1) attached to the emission port 13 are not shown.
[0036]
In the upper housing 30, in order to divide each of these regions, a first dividing member 34 composed of three surfaces of the front and left and right side surfaces, a second dividing member 35 composed of two surfaces of the rear surface and the upper surface, An internal cover 36 composed of three surfaces, ie, both side surfaces and an upper surface, is provided. The partition members 34 and 35 and the inner cover 36 have a function as a shielding plate that optically partitions each region. At the same time, it functions as a wind control plate for controlling the air flow path for air cooling.
[0037]
The output region B is formed by being partitioned by a first partition member 34 and a second partition member 35 at the front portion of the apparatus facing the front surface 30a of the upper housing 30 where the emission port 13 is provided. As shown in FIG. 5, a substantially circular emission opening 34 a for allowing light to pass toward the emission port 13 is provided on the front surface of the first sorting member 34. In addition, a substantially circular opening 35 a for allowing light from a lamp unit 5 described later to enter the output region B is provided on the rear surface of the second sorting member 35.
[0038]
In addition, a cylindrical portion 35b is formed in front of the opening portion 35a so as to protrude in the direction of the emission opening portion 34a and the emission port 13. The cylindrical portion 35b is connected to the opening 35a and is formed in a truncated cone shape that tapers toward the exit port 13, and limits the incident angle in addition to the incident position for the light incident on the output region B. is doing. The exit opening 34a, the opening 35a, and the tubular portion 35b are all formed around the optical axis of light emission.
[0039]
A shutter including a shutter plate 47a and a shutter driving unit 47b for switching ON / OFF of light emission from the emission port 13 between the opening in front of the cylindrical portion 35b and the emission opening 34a and the emission port 13. 47 is installed. In FIG. 5, with respect to the shutter plate 47a, the light emission ON position (the optical axis is opened) is indicated by a solid line, and the OFF position (the optical axis is blocked) is indicated by a dotted line. The output area B is further provided with a light amount diaphragm for adjusting the amount of emitted light.
[0040]
The light source region C is formed at the rear portion of the apparatus sandwiched between the output region B and the rear surface 30b of the upper housing 30 by the first partition member 34, the second partition member 35, and the inner cover 36. Note that an opening 32a through which an air flow for air cooling passes is provided at a portion of the housing partition plate 32 that faces the outer surface below the reflecting mirror 45 (see FIG. 4).
[0041]
In addition, the first section member 34 and the inner cover 36 are installed at predetermined intervals with respect to both side surfaces 30c and 30d of the upper housing 30, and in the meantime, each part inside the apparatus is cooled by an air flow ( A ventilation region D for air cooling is provided.
[0042]
In the light source region C, a lamp unit 5 including a discharge tube 40 that emits ultraviolet light and a reflection mirror 45 is installed. As the reflection mirror 45, for example, a mirror having a predetermined shape such as an elliptical condensing mirror and having a reflection surface formed on the inner surface thereof is used.
[0043]
In the light source unit 3 configured as described above, the light emitted from the discharge tube 40 in the light source region C is reflected by the reflection mirror 45, and is within the opening 35a and the cylindrical part 35b on the rear surface of the second partition member 35 that is a shielding plate. And enters the output region B. In the output region B, when the light emission is turned ON / OFF by the shutter 47 and turned ON, the light is emitted from the emission opening 34 a of the first partition member 34 and the front surface 30 a of the upper housing 30. The light is incident and condensed on the fiber 49 connected to the fiber insertion port 48 through the emission port 13 and emitted to the outside. Here, on the optical axis, in addition to the shutter 47 and the like, elements such as the above-described light quantity stop and the ultraviolet light transmission filter 46 (see FIG. 5) may be further installed as necessary.
[0044]
The configuration of the lamp unit 5 installed in the light source region C will be described.
[0045]
The lamp unit 5 is installed on a housing partition plate 32 provided in the upper housing 30 as shown in FIG. The lamp unit 5 includes a discharge tube 40, a reflection mirror 45 that is a concave reflecting mirror, a holding member 50 that integrally holds the discharge tube 40 and the reflection mirror 45, and a discharge that is on the side of the emission opening 45 a of the reflection mirror 45. And a connection member 55 that is electrically connected to the cathode electrode 41 that is an electrode of the tube 40.
[0046]
The holding member 50 is fixed to the upper housing 30 and holds the discharge tube 40 and the reflection mirror 45 integrally. In the present embodiment, as shown in FIG. 2, the holding member 50 is connected to the rear end portions of the left and right side surfaces of the first partition member 34 and is fixed perpendicularly to the housing partition plate 32. A holding plate 51, a support bar 51a attached to the four corners of the mirror holding plate 51 so as to protrude rearward, and a discharge tube holding unit fixed to the mirror holding plate 51 via the support bar 51a And a plate 52.
[0047]
In the mirror holding plate 51, an opening having substantially the same inner diameter as the exit opening 45a of the reflection mirror 45 is formed around the optical axis, and the reflection mirror 45 is fixed from the rear so as to face this opening. The reflection mirror 45 is pressed against the mirror holding plate 51 by a ring-shaped plate spring 51b, and is fixed and positioned. Thus, by using the ring-shaped leaf spring 51b, the reflection mirror 45 can be fixed and positioned easily. In addition, a discharge tube insertion port 45b through which the discharge tube 40 passes is provided on the opposite side of the reflection mirror 45 from the emission opening 45a (see FIG. 5).
[0048]
In the discharge tube 40, the cathode electrode 41, which is one of the electrodes, is located on the emission opening 45a side of the reflection mirror 45, and the anode electrode 42, which is the other electrode, is located on the discharge tube insertion port 45b side of the reflection mirror 45. Thus, it is fixed to the discharge tube holding plate 52 and installed.
[0049]
On the anode electrode 42 side of the discharge tube 40, a positioning flange (not shown) for positioning and fixing to the holding member 50 is provided. On the other hand, the holding member 50 is provided with a cylindrical flange holding portion 53 having an inner diameter substantially equal to the outer diameter of the positioning flange of the discharge tube 40 at the opening portion of the discharge tube holding plate 52. The discharge tube 40 is positioned with respect to the upper housing 30, the reflection mirror 45, and the like by inserting the discharge tube 40 from behind in the flange holding portion 53. The discharge tube 40 inserted through the flange holding portion 53 is pressed and fixed from behind by a fixing member 54.
[0050]
The discharge tube 40 is turned on by supplying a predetermined voltage from the starter to the electrodes 41 and 42 at both ends thereof. In the spot light source device 1, lighting is performed by applying a negative voltage to the cathode electrode 41 located on the emission opening 45 a side of the reflection mirror 45.
[0051]
In the present embodiment, as shown in FIG. 4, the starter is installed in a starter portion 43 provided on the lower surface side (drive portion 2 side) of the housing partition plate 32. FIG. 6 is a perspective view showing the structure of the starter, the connection member, and the like in a state where the housing partition plate and the insulating plate are disassembled (see FIG. 2).
[0052]
The starter portion 43 has a starter installation box 43 a made of a metal plate that forms the outer surface thereof, and the starter installation box 43 a is fixed to the lower surface side of the housing partition plate 32. In addition, a surface of the starter installation box 43a on the housing partition plate 32 side is an opening. On the other hand, an opening 32b is provided in a portion of the housing partition plate 32 facing the cathode electrode 41 and the connection member 55 of the discharge tube 40, and the starter installation box 43a has an opening on the upper surface side. It is installed so as to substantially match 32b.
[0053]
In the starter installation box 43a, as shown in FIG. 6, a starter 44 for lighting (starting) the discharge tube 40 is installed by being potted with a resin such as silicone resin. Here, the metal starter installation box 43a covering the drive unit 2 side of the starter 44 functions as a shield member that electromagnetically shields the starter 44 from the surroundings. As a result, it is possible to suppress the influence of electromagnetic noise caused by the voltage generated in the starter 44 on the driving device and the like.
[0054]
Both a cathode terminal (minus terminal) and an anode terminal (in this embodiment, a ground terminal) for connecting to both electrodes 41 and 42 of the discharge tube 40 are provided on the surface of the starter 44 on the housing partition plate 32 side. ing. A lead wire 44a is connected to the cathode terminal, and a lead wire 44b is connected to the anode terminal. As for the wiring on the anode side, the lead wire 44 b is wired through the lower surface side of the housing partition plate 32 and electrically connected to the anode electrode 42 through the flange holding portion 53 as shown in FIG. The
[0055]
The housing partition plate 32 is provided with an insulating plate 37 so as to cover the opening 32b. Therefore, the insulating plate 37 constitutes a part of a sorting plate that optically separates the driving unit 2 and the light source unit 3. Here, it is preferable to use a ceramic plate member as the insulating plate 37. If the ceramic plate is used, the insulating plate 37 that sufficiently shields the light and does not deteriorate even if the light from the discharge tube 40 hits for a long time can be obtained.
[0056]
Further, the entire surface of the starter 44 where the electrode terminals are provided faces the insulating plate 37. Thereby, the insulating plate 37 realizes protection of the starter 44 from deterioration of the potting resin due to light from the discharge tube 40 and insulation of the electrode terminals of the starter 44 and prevention of discharge. In FIG. 6, illustration of wiring from the starter 44 to the driving device in the driving unit 2 is omitted.
[0057]
A connection member 55 for supplying a negative voltage from the cathode terminal of the starter 44 to the cathode electrode 41 of the discharge tube 40 is fixed to the surface of the insulating plate 37 on the light source unit 3 side. At this time, the insulating plate 37 also functions as an insulating member that insulates the connecting member 55.
[0058]
The connection member 55 in the present embodiment includes a metal thin plate-like electrode connection plate 56. The electrode connection plate 56 is installed on the insulating plate 37 so that the thin plate of the support portion 56b is in a direction parallel to the optical axis. As a result, blocking of the collected light is suppressed as much as possible, and light loss is reduced. Moreover, since it is plate shape, the intensity | strength can be ensured rather than forming in linear form.
[0059]
A fixing portion 56c bent at a right angle to the support portion 56b is provided at the lower end of the support portion 56b on the rear side (discharge tube 40 side). By fixing the fixing portion 56 c to the insulating plate 37 via the plate spring 57, the entire electrode connection plate 56 is fixed to the insulating plate 37. In addition, an electrode connection portion 56a bent at a right angle to the support portion 56b is provided on the upper end of the support portion 56b on the rear side. The electrode connecting portion 56a is provided at a position where the optical axis of light emission (the central axis of the discharge tube 40) passes through the surface of the electrode connecting portion 56a.
[0060]
In addition, a lead wire connecting portion 56d is provided at the end of the fixing portion 56c, and the lead wire 44a from the cathode terminal of the starter 44 passes through a lead wire insertion port 37a provided in the insulating plate 37, The lead wire connecting portion 56d is electrically connected to the electrode connecting plate 56.
[0061]
On the other hand, the cathode electrode 41 of the discharge tube 40 is provided with a plug 41a formed in a warhead shape as shown in FIG. Thereby, as shown in FIG. 2, when the discharge tube 40 is installed, the plug 41a of the cathode electrode 41 of the discharge tube 40 and the electrode connection portion 56a of the electrode connection plate 56 are electrically connected. The cathode electrode 41 of the discharge tube 40 and the cathode terminal of the starter 44 are electrically connected. The warhead shape of the plug 41a is adopted as a shape that can be easily electrically connected to the connection member 55. However, any shape other than the warhead shape may be used as long as it can appropriately contact the connection member 55.
[0062]
The electrical connection between the cathode electrode of the discharge tube and the connecting member will be further described.
[0063]
FIG. 7 is a side view showing the connection between the plug 41 a provided on the cathode electrode 41 of the discharge tube 40 and the electrode connection plate 56. The leaf spring 57 has a bent portion 57a bent upward at a right angle on the rear side (discharge tube 40 side), and this bent portion 57a is screwed to the fixing portion 56c of the electrode connection plate 56. ing. The plate spring 57 and the insulating plate 37 are screwed at a predetermined position 57 b on the front end side of the plate spring 57.
[0064]
The rear end side of the leaf spring 57 is movable to some extent with respect to the insulating plate 37, and when the discharge tube 40 is inserted and the warhead plug 41a is pressed against the electrode connection portion 56a of the electrode connection plate 56, as shown in FIG. Then, the electrode connecting portion 56a is pushed by the plug 41a, and the electrode connecting plate 56 and the leaf spring 57 are inclined. At this time, since the electrode connection plate 56 as the connection member 55 is biased by the leaf spring 57 as the biasing means, a pressing force is generated in the direction indicated by the arrow in FIG. 7, and the electrode connection portion 56a is plugged. 41a is pressed with an appropriate pressure.
[0065]
As a result, the electrical connection between the electrode connection plate 56 and the cathode electrode 41 is realized under suitable and stable conditions. By realizing the electrical connection with such a configuration, it becomes unnecessary to connect the lead wire provided on the cathode terminal of the discharge tube to the starter terminal as in the prior art, and the discharge tube can be easily replaced. It becomes possible. Further, since the work of connecting lead wires is not required, it is not necessary to provide a work window or the like in the spot light source device, and the device configuration can be simplified. For example, as shown in FIG. 2, a lamp replacement door 33 is provided on the rear surface 30 b of the housing, and the discharge tube 40 is inserted into the flange holding portion 53 from the lamp replacement door 33 and fixed by a fixing member 54. 40 can be replaced and installed.
[0066]
As described above, in the spot light source device 1, the entire portion of the partition plate 32 facing the starter 44 is the opening 32 b with respect to the starter 44 installed on the drive unit 2 side of the housing partition plate 32. An insulating plate 37 that performs light shielding and insulation is provided so as to cover the opening 32b. At this time, the starter 44 can be installed closer to the sorting plate 32 (insulating plate 37). For example, for supplying a voltage from the cathode terminal of the starter 44 to the cathode electrode 41 of the discharge tube 40. Wiring can be shortened as much as possible. This reduces the occurrence of discharge and leakage current at the electrode terminal or wiring of the starter 44, and enables efficient voltage application from the starter 44 to the discharge tube 40.
[0067]
A connection member 55 (electrode connection plate 56) that is electrically connected to the cathode electrode 41 of the discharge tube 40 is fixed to the insulating plate 37. At this time, since the connecting member 55 is positioned and fixed with respect to the partition plate 32 and the upper housing 30, the positioning of the discharge tube 40 with respect to the cathode electrode 41 can be performed accurately, and the connection is facilitated. It becomes possible to do. In addition, since the insulating plate 37 also serves as the insulating member of the connecting member 55, the apparatus configuration is simplified. Furthermore, the lead wire insertion opening 37a is also provided in the insulating plate 37 without providing any other insulating member.
[0068]
Moreover, in said spot light source device 1, the drive part 2 (lower housing 20) and the light source part 3 (upper housing 30) are comprised so that attachment or detachment is possible. Here, since the sorting plate 32 for optically separating the drive unit 2 and the light source unit 3 is installed in the upper housing 30 on the light source unit 3 side, the starter 44 fixed to the sorting plate 32 is a light source. The arrangement is changed together with the discharge tube 40 and the like in the section 3. Therefore, the same arrangement is maintained regardless of the mounting direction.
[0069]
In the spot light source device 1, an interlock circuit is installed to prevent the lamp replacement door 33 provided in the upper housing 30 from being opened while the discharge tube 40 is lit. Yes. This interlock circuit is configured by connecting a first interlock circuit section (not shown) on the drive section 2 side and a second interlock circuit section 38 on the light source section 3 side.
[0070]
The first interlock circuit unit includes a wiring cable from a power connection unit connected to a power cable from the outside and a wiring cable from a power switch of the operation panel 14. On the other hand, as shown in FIGS. 2 to 4, the second interlock circuit section 38 has two sets of terminals 38 a connected to the respective wiring cables on the drive section 2 side on the lower surface side of the housing partition plate 32. , 38b are provided, and electrical connection between these terminals 38a, 38b is turned ON / OFF by an interlock release switch 38c on the upper surface side of the housing partition plate 32. The lamp replacement door 33 is provided with an interlock release member 38d that pushes the interlock release switch 38c to turn it on when the lamp replacement door 33 is closed. As described above, an interlock is configured that can operate the apparatus only when the lamp replacement door 33 is closed.
[0071]
Further, the inside of the light source unit 3 such as the lamp unit 5 is cooled by the air flow taken in from the outside air inlet 72 provided in the upper housing 30. That is, as shown in FIG. 5, the air flow from the outside air inlet 72 passes between the mirror holding plate 51 and the inner cover 36, between the inner cover 36 and both side surfaces 30 c and 30 d, and the anode of the discharge tube 40. After cooling the vicinity of the electrode 42 and the outer surface of the reflection mirror 45, the air is led from the vent 32 a and the vent 74 of the housing partition plate to the drive unit 2. Further, a part of the air flow is changed in direction by a wind control plate 75 a fixed to the side surface of the first partition member 34, flows into the light source region C from the vent hole 75, and is a cathode electrode 41 of the discharge tube 40. After the vicinity is cooled, it is guided from the vent 76 of the housing partition plate to the drive unit 2. The airflow that has flowed into the drive unit 2 is exhausted to the outside by a fan (not shown) provided at the exhaust port of the drive unit 2. Further, the inside of the drive unit 2 is cooled by the air flow from the outside air intake port 71 (FIG. 1) to the exhaust port. In addition, about the ventilation | gas_flowing part 74, the right side part is partially broken and shown in FIG.
[0072]
The light source device according to the present invention is not limited to the spot light source device according to the above-described embodiment, and various modifications are possible. In addition to the UV spot light source device, for example, the present invention can be applied to light source devices of various configurations and uses such as a spot light source device that emits visible light and a light source device that does not have a light guide such as a fiber.
[0073]
Further, the configurations of the insulating plate 37 and the connection member 55 are not limited to the above-described embodiment, and various modifications can be made. Further, the electrode of the discharge tube located on the exit opening side of the reflection mirror does not necessarily need to be a cathode electrode. An anode electrode is provided on the exit opening side and a cathode electrode is provided on the discharge tube insertion side. A positive voltage may be supplied from the anode terminal to the anode electrode.
[0074]
【The invention's effect】
As described in detail above, the light source device and the spot light source device according to the present invention obtain the following effects. That is, an opening is formed in a part facing the starter among the dividing plates separating the starter and the discharge tube, and an insulating plate is installed so as to cover the opening. And the connection member for electrically connecting with respect to the electrode of a discharge tube is fixed to the discharge tube side of this insulating plate. Thereby, protection of the starter (potting resin) from the light beam by the discharge tube and insulation of the starter are realized simultaneously by the insulating plate. Moreover, the distance from the starter to the electrode of the discharge tube can be shortened by shortening the distance between the starter and the dividing plate (insulating plate). Therefore, the occurrence of discharge and leakage current at the starter terminal and wiring is suppressed.
[0075]
Further, since the connection member is fixed with respect to the insulating plate, the connection member is positioned with respect to the housing, so that the connection with the discharge tube can be performed and the connection with the electrode of the discharge tube can be facilitated. . Moreover, the structure is simplified because the insulating plate also serves as an insulating member for insulating the connecting member. By the above, arrangement | positioning in the short distance of a discharge tube and a starter, and a suitable electrical connection are implement | achieved.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an outer configuration of an embodiment of a UV spot light source device.
FIG. 2 is a perspective view showing the internal configuration of the light source unit in a state in which the upper housing is partially broken and the internal cover is removed.
FIG. 3 is a perspective view showing an internal configuration of the light source unit in a state in which the upper housing is partly broken and an internal cover is attached.
FIG. 4 is a perspective view showing a configuration of a lower surface side of a light source unit.
FIG. 5 is a horizontal sectional view of the light source unit including an optical axis for light emission.
FIG. 6 is a perspective view illustrating a configuration of a starter and a connection member.
FIG. 7 is a side view showing electrical connection of an electrode of a discharge tube to a connection member.
FIG. 8 is a perspective view showing replacement of a discharge tube in a conventional spot light source device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... UV spot light source device, 10 ... Housing, 13 ... Output port, 14 ... Operation panel,
2 ... Drive unit, 20 ... Lower housing, 20a ... Front surface, 20b ... Rear surface, 20c ... Left side surface, 20d ... Right side surface, 20e ... Lower surface, 20f ... Upper surface,
DESCRIPTION OF SYMBOLS 3 ... Light source part, 30 ... Upper housing, 30a ... Front surface, 30b ... Rear surface, 30c ... Left side surface, 30d ... Right side surface, 30e ... Lower surface, 30f ... Upper surface, 31 ... Upper cover, 32 ... Housing partition plate, 32a ... Opening 33, Lamp replacement door, 34 ... First section member, 34a ... Output opening, 35 ... Second section member, 35a ... Opening section, 35b ... Cylindrical section, 36 ... Inner cover, 37 ... Insulating plate, 37a ... Lead wire insertion port, 38 ... Second interlock circuit part,
DESCRIPTION OF SYMBOLS 40 ... Discharge tube, 41 ... Cathode electrode, 41a ... Warhead plug, 42 ... Anode electrode, 43 ... Starter part, 43a ... Starter installation box, 44 ... Starter, 45 ... Reflection mirror, 45a ... Output opening part, 45b ... Discharge Pipe insertion port, 46 ... ultraviolet light transmission filter, 47 ... shutter, 48 ... fiber insertion port, 49 ... fiber,
DESCRIPTION OF SYMBOLS 5 ... Lamp unit, 50 ... Holding member, 51 ... Mirror holding plate, 51a ... Supporting rod 51b ... Ring-shaped leaf spring, 52 ... Discharge tube holding plate, 53 ... Flange holding part, 54 ... Fixing member, 55 ... Connection member, 56 ... Electrode connection plate, 56a ... Electrode connection portion, 57 ... Leaf spring,
71 ... 1st outside air intake port, 72 ... 2nd outside air intake port, 73 ... Exhaust port, 73a ... Fan, 74 ... Ventilation part, 75 ... Ventilation port, 75a ... Ventilation plate, 76 ... Ventilation port.

Claims (5)

A discharge tube that emits light;
A reflection mirror for reflecting light emitted from the discharge tube;
A housing in which the discharge tube and the reflection mirror are stored;
In the light source device having an emission port provided on the emission surface of the housing for emitting light from the reflection mirror,
A drive unit for storing a drive device for driving and controlling the discharge tube, and a drive unit for operating the device;
A light source unit that emits light, having an output region in which the emission port faces and control of emission of light to the outside is performed; and a light source region in which the discharge tube and the reflection mirror are arranged;
A partition plate that separates the drive unit and the light source unit, and
The starter of the discharge tube installed on the drive unit side of the partition plate so as to face the opening provided in the partition plate;
An insulating plate installed to cover the opening of the partition plate;
A connecting member fixed on the light source side of the insulating plate and electrically connected to one electrode of the discharge tube provided on the output opening side of the reflection mirror;
I have a,
The insulating plate has a lead wire insertion port through which a lead wire electrically connecting the electrode terminal of the starter and the connecting member is inserted,
The connecting member further includes urging means for urging the connecting member so as to press the one electrode, and the connecting member is movably fixed to the insulating plate via a leaf spring as the urging means. Has been
The connection member is made of a metal thin plate electrode connection plate, and the leaf spring has a bent portion bent upward at a right angle toward the rear side, which is the discharge tube side, and the bent portion is It is fixed to the fixed portion of the electrode connection plate, and the plate spring and the insulating plate are fixed on the front end side of the plate spring,
The plug provided on the one electrode of the discharge tube is pressed against the electrode connection portion of the electrode connection plate, and the electrode connection plate and the plate spring are tilted so that the electrode connection plate is moved by the plate spring. is energized, the light source device in which the electrode connecting portion and said Rukoto is pressed against the plug. It said section plates are fixed to face the opening of claim 1 Symbol placement of the light source device, comprising a metal shield member for covering the drive portion side of the starter. The housing is
A first housing part including a first surface substantially orthogonal to the emission surface, having the drive region therein, and constituting the drive unit;
The light source unit includes the second surface facing the first surface and a portion of the light exit surface that includes the light exit, and includes the output region and the light source region therein. And a second housing part provided with the partition plate,
The second housing part can be attached to and detached from the first housing part, and can be attached in either of two directions in which the position of the emission port is reversed with respect to the first housing part. the light source device according to claim 1 or 2, wherein the. Wherein the insulating plate includes a light source device of any one of claims 1-3, characterized in that it consists of a ceramic plate. The light source device according to any one of claims 1 to 4 ,
A spot light source device further comprising a light guide connected to the emission port for guiding emitted light.

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