JP4457333B2 - Floodlight - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a projector that irradiates an object to be irradiated, such as a sign board, a display board, a guidance bulletin board, and an advertising board.
[0002]
[Prior art]
On roads, buildings, etc., sign boards displaying various information that characters, symbols, figures, etc. that passersby (pedestrians), vehicle drivers and passengers, and other observers want to know and need And display boards are installed. The information described on the display board and the sign board needs to be visually recognized and accurately transmitted by a passerby regardless of day or night. In other words, various information displayed on the sign board or the like must be accurately read at all times by a passerby. For this reason, a projector that irradiates a sign board or the like exclusively is installed in the vicinity of the sign board or the display board so that it can be seen at night as in the daytime.
[0003]
The projector will be described with reference to FIGS. FIG. 14 shows a cross-sectional view of a conventional projector 1 that irradiates the sign board, the display board and the like exclusively, FIG. 15 shows a left side view thereof, and FIG. 16 shows a right side view thereof. In FIG. 14, what are indicated by reference signs F and R are the front side and the rear side of the projector 1.
[0004]
The floodlight body 2 of the floodlight 1 includes a cylindrical lamp body portion 3 disposed at the center, a cylindrical front cover 4 (FIG. 15) assembled on the front side of the lamp body portion 3, and a rear side. And a cylindrical rear cover 5 (FIG. 16) to be assembled. A front glass 6 is attached to the front end portion of the front cover 4.
[0005]
Inside the rear cover 5, a light source (for example, a 250 W metal halide lamp is attached in a horizontal direction) 7 and two kinds of reflecting mirrors, that is, an ellipsoidal reflecting mirror 8 and a spherical reflecting mirror 9 are provided. . The lamp body 3 and the rear cover 5 are connected by a hinge 10, and the rear cover 5 can be opened and closed with respect to the lamp body 3. Further, when the rear cover 5 is closed, it can be locked so as not to open.
[0006]
Then, three locks that are fixed in combination with each other are attached to the front portion of the lamp body 3 and the rear portion of the front cover 4 in the circumferential direction at intervals. Further, a ring panel 11 as shown in FIGS. 17 and 18 is fixed to the front end face of the lamp body 3. On the front side of the ring panel 11, a square intermediate plate 13 having a square light hole 12 (FIG. 18) formed in the central portion (on the axis of the light source) is fixed at its four corners by screw means 14. (See FIG. 14).
[0007]
Further, substantially L-shaped mask members 15 and 16 are disposed at four positions around the light hole 12 on the front side of the intermediate plate 13. That is, two mask members 15 are provided above and below the light hole 12, and two mask members 16 are provided on the left and right sides of the light hole 12. One side of each of the mask members 15 and 16 is bent and formed on the handles 15A and 16A when the mask members 15 and 16 are moved. The handles 15 </ b> A and 16 </ b> A are all bent in the front direction of the projector 1.
[0008]
Two rectangular guide plates 17 for guiding the movement of the mask member 15 in the vertical direction (see arrows) are provided on the left and right sides of the mask member 15 disposed above and below (FIG. 18). . Two rectangular guide plates 18 are provided on the upper and lower sides of the mask member 16 disposed on the left and right sides to guide the movement of the mask member 16 in the left-right direction (see arrows).
[0009]
The mask members 15 and 16 and the guide plates 17 and 18 are sandwiched between the intermediate plate 13 and a square pressing plate 20 having a square light hole 19 in the center, and within the allowable movement range of the mask members 15 and 16. The pressing plate 20, the guide plates 17 and 18, and the intermediate plate 13 are integrally fixed by screw means 14 (FIG. 17). Further, as shown in FIG. 19, a rectangular holding plate 22 having a light hole 21 at the center disposed on the rear cover 5 side of the intermediate plate 13 is fixed to the intermediate plate 13 by a screw means 14 </ b> A via a spacer 23. Has been.
[0010]
The mask members 15 and 16 are irradiated from the light source 7 to the Fresnel lens 24 so that the light irradiated from the Fresnel lens 24 disposed in front of the mask members 15 and 16 substantially irradiates only the irradiated object. The light is limited in accordance with the shape of the irradiated object. That is, by appropriately moving the four-way mask members 15 and 16 arranged on the intermediate plate 13, an effective opening by the mask members 15 and 16 is formed in front of the light holes 12 of the intermediate plate 13, and this effective opening is formed. As the light from the light source 7 passes, only the irradiated object is irradiated.
[0011]
Further, as shown in FIGS. 14 and 19, the front portion (light exit) side of the square integrator 25 is fitted and fixed to the light hole 12 of the intermediate plate 13. The integrator 25 is inserted through the ring panel 11 and the holding plate 22 so as to extend inside the lamp body 3 toward the rear side. A plurality of reflectors are arranged inside the integrator 25, and the light from the light source 7 led to the entrance of the integrator 25 is reflected while reaching the exit, and there is little difference in light intensity. Of high light.
[0012]
As shown in FIG. 14, four shafts 26 extending to the front side in the front cover 4 at 90 ° intervals are projected at four positions on the upper and lower left and right sides of the ring panel 11 fixed to the front side of the lamp body 3. It is installed. A Fresnel lens 24 is attached to the tip of the shaft 26.
[0013]
The projector body 2 of the projector 1 is supported by a support arm 27 as shown in FIGS. 15 and 16. That is, the projector main body 2 is rotatably attached to the support arm 27 by the bolt 28 and the nut 29. Thereby, the direction of the Fresnel lens 24 of the projector 1 can be adjusted by rotating in the vertical direction.
[0014]
What is shown in FIG. 20 is a ballast box 30 provided separately from the projector 1 when the projector 1 is turned on. Since this ballast box 30 is for two lamps, two ballasts 31 are arranged inside the box 30. Reference numeral 32 denotes a terminal block, reference numeral 33 denotes a no-fuse breaker, reference numeral 34 denotes a circuit breaker, and reference numeral 35 denotes a box connector. The ballast box 30 has a height of about 1 m, a width of about 0.5 m, and a depth of about 0.2 m. When four, five, and floodlights 1 are added, a pillar is erected. The projector 1 is attached separately from the projector 1.
[0015]
When irradiating the irradiated object with the projector 1 having this structure, the light source 7 of the projector 1 is turned on, and the light is focused by the ellipsoidal reflecting mirror 8 and introduced into the integrator 25. That is, by placing one focal point of the ellipsoidal reflecting mirror 8 at the center of the light source 7 and placing the other focal point at the light entrance of the integrator 25, the light from the light source 7 can be accurately sent into the integrator 25. Can do. Further, light that is not input to the ellipsoidal reflecting mirror 8 is returned to the vicinity of the center of the light source 7 by the spherical reflecting mirror 9 and is again put into the ellipsoidal reflecting mirror 8 so that the light from the light source 7 is effectively put into the integrator 25. be able to.
[0016]
The light that has reached the inside from the entrance of the integrator 25 repeats a plurality of reflections and reaches the exit of the integrator 25. Light emitted from the exit of the integrator 25 is incident on the Fresnel lens 24 through an effective opening formed by the mask members 15 and 16, and the irradiated object is irradiated with the light from the Fresnel lens 24.
[0017]
When the light irradiated by the Fresnel lens 24 does not hit the entire irradiated object at the time of irradiation, or when the light spreads beyond the shape of the irradiated object, the mask members 15 and 16 are moved and adjusted. . In the case of adjustment, at night, the lock connecting the lamp body 3 of the projector 1 and the front cover 4 is removed, and the front cover 4 is shifted along the shaft 26 to the front side of the lamp body 3 to mask the mask. A space portion is formed in the vicinity of the front portion of the members 15 and 16, and a hand is inserted from the space to hold the handles 15 </ b> A and 16 </ b> A of the mask members 15 and 16 appropriately to operate the mask members 15 and 16. At this time, the light source 7 is actually turned on, and the mask members 15 and 16 are adjusted while visually observing the irradiated body so that the light substantially hits only the irradiated body.
[0018]
[Problems to be solved by the invention]
In the prior art described above, the size of the effective opening by the mask member is adjusted by moving the mask member so that light substantially irradiates only the irradiated object. Since the light source was actually turned on and the adjustment was performed while looking at the irradiated object after waiting for the night, there was a problem that the work was complicated. Further, when the projector is installed at a high position, there is a possibility that the maintenance work may be hindered.
Further, when installing the projector, it is necessary to arrange a ballast box in the vicinity (on the same column as the projector) where the projector is installed, which makes the operation more complicated. In addition, when four or more projectors are installed, a ballast box column is set up separately from the projector and the ballast box is attached to this column, making installation more complicated. There was a problem.
[0019]
In addition, as a projector, a projector that can uniformly irradiate the entire irradiated object (Japanese Patent Laid-Open No. 8-185702), an advertisement bulletin board that can be easily recognized by an observer, etc. However, since the mask member is not adjusted from the rear side of the projector as in the present invention, the problem of the present invention cannot be solved.
[0020]
The present invention has been made in view of this point, and makes it possible to adjust the mask member of the projector even from the rear side of the projector main body, and the light can be substantially transmitted even during the day and without turning on the light source. In addition, the ballast box can be adjusted to irradiate only the object to be irradiated, and the ballast box is formed in a small size and incorporated in the projector body, thereby avoiding the complexity of installation work, adjustment work and maintenance. An object is to provide a projector.
[0021]
[Means for Solving the Problems]
According to the present invention, as means for solving the above-described problems, the invention described in claim 1 is characterized in that a lens and a light source are arranged in a projector main body, and light from the light source is irradiated through the lens. In the floodlight that can be seen by a passerby etc., the tubular front cover provided with a front glass is removed from the front side of the tubular lamp body of the floodlight body. A cylindrical rear cover provided with a light source and a reflecting mirror on the rear side of the lamp body is assembled to be openable and closable, and a plurality of reflectors are provided in a substantially middle portion on the axis in the projector body. An integrator that reflects the light guided from the entrance and reaches the exit while reflecting the light, and controls the irradiation range of the light irradiated to the irradiated object at the front of the integrator, which is operated from the rear of the projector main body. Mass with possible mask material It means provided and is characterized in that a ballast box in a recess formed on the projector body.
[0022]
  Also,in frontThe mask means includes a ring panel attached to the lamp body, an optical hole fixed to the ring panel, a light hole in the center, and a mask member operating window around the light hole. A plate, a mask member disposed on one side of the intermediate plate and corresponding to the window for operating the mask member, a pressing plate for movably pressing the mask member, and the intermediate plate The holding plate is disposed on the other side and holds the intermediate plate and the mask member together with the holding plate.In addition, a mask member operating handle is alternately bent in opposite directions on one side of the mask member, and one of the handles is fitted to the mask member operating window of the intermediate plate. It is what.
[0023]
  Claim1In the described invention, a rear cover that can be opened and closed is assembled to the rear side of the lamp body, and further, a window for operating the mask member is provided on the intermediate plate provided inside the projector body, and the rear side of the projector (the rear part of the intermediate plate) The mask member provided on the front side of the intermediate plate is operated from the side) through the mask member operation window. Furthermore, since the irradiated object can be viewed from the rear side of the integrator, the mask member is operated and adjusted while watching the irradiated object connected to the integrator axis without turning on the light source during the daytime. An effective opening in the light irradiation range is formed.
  Since the opening formed by manipulating the mask member of the mask means is similar to the shape of the irradiation range of the irradiated object, most of the light is transmitted to the entire irradiation range without departing from the irradiation range. Irradiation can be performed without any excess, and light can be made uniform by using an integrator. That is, an image that can be visually recognized through the effective opening of the mask member is actually an irradiation range irradiated with light when the light source is turned on, so that the adjustment work is performed without turning on the light source during the day. It becomes possible.
[0025]
MaA mask member operating handle provided on one side of the disk member is alternately bent in the opposite direction, and a part of this handle is fitted into a mask member operating window provided on the intermediate plate, so that the mask member is fitted to the projector. Operate from the rear.
[0026]
ContractClaim2The invention described in claim 11In the description, a ring panel is fixed to the front side of the lamp body, an intermediate plate having a light hole at the center is attached to one side of the ring panel, and the light hole of the intermediate plate is attached to the light hole. While fixing the front-end | tip part of an integrator, the focus adjustment spacer is inserted between the said intermediate | middle plate and the said ring panel so that removal is possible, It is characterized by the above-mentioned.
[0027]
ContractClaim2In the invention described in (1), a focus adjusting spacer is interposed between the ring plate and the intermediate plate, the integrator integrated with the intermediate plate is moved on the axis, and the focus of the integrator is adjusted.
[0028]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described based on FIG. 1 and FIG. 2 schematically showing main portions. The same parts as those in FIGS. 14 to 20 showing the prior art are denoted by the same reference numerals. FIG. 1 is a cross-sectional view of a projector 51 according to the present invention. A floodlight main body 52 of the floodlight 51 includes a cylindrical lamp body 53 located at the center, a cylindrical front cover 54 having a front glass 6 assembled to the front side of the lamp body 53, A light source (for example, a 150 W metal halide lamp is used and attached along the front-rear direction of the projector main body 52) 7 and two types of reflectors assembled on the rear side of the lamp body 53, that is, A cylindrical rear cover 55 provided with an ellipsoidal reflecting mirror 8 and a spherical reflecting mirror 9 is generally configured.
[0029]
The projector 51 is made of, for example, stainless steel in consideration of the possibility of installing the projector 51 near the coast because the thickness of the projector main body 52 can be reduced and lightened. In FIG. 1, symbol F indicates the front side of the projector 51, and symbol R indicates the rear side.
[0030]
Of the reflecting mirrors provided in the rear cover 55, the ellipsoidal reflecting mirror 8 is disposed at the rear part of the light source 7, and the spherical reflecting mirror 9 is disposed at the front part of the light source 7. In both of these reflecting mirrors 8 and 9, a flange on the outer peripheral edge of the reflecting surface is attached to the rear cover 55 by a plurality of bolts 56, and is fixed by a nut 57. Reference numeral 58 denotes a collar through which the bolt 56 is inserted.
[0031]
A lamp frame 60 composed of a cylindrical body 59 and the ring panel 11 is fitted and welded to an end face on the rear side of the lamp body 53. The cylindrical body 59 is formed in a cylindrical shape, and the ring panel 11 is in a band shape when viewed from the front (FIGS. 3 and 4). A lamp frame 60 is formed by welding the ring panel 11 to one end surface of the cylindrical body 59. The outermost peripheral edge of the ring panel 11 of the lamp body frame 60 protrudes from the outer periphery of the lamp body 53 to form a flange 61.
[0032]
On the other hand, a bulging portion 62 having an enlarged diameter is formed outside the opening periphery of the rear cover 55, and a packing 63 is attached to the inner periphery of the bulging portion 62. By engaging the bulging portion 62 with the flange 61 of the ring panel 11 and positioning it, and engaging a lock (not shown) provided on the lamp body portion 53 and the rear cover 55, both are locked. Since the rear cover 55 and the lamp body 53 are connected by the hinge 10, the rear cover 55 can be rotated with respect to the lamp body 53 and opened and closed by releasing the lock.
[0033]
Further, a lamp frame 60 composed of the cylindrical body 59 and the ring panel 11 (see FIGS. 3 and 4) is also fitted and welded to the front end face of the lamp body 53. The outermost peripheral edge of the ring panel 11 of the lamp frame 60 also protrudes from the outer periphery of the lamp body 53 to form a flange 61.
[0034]
On the other hand, a bulging portion 62 provided with a packing 63 is provided inside the opening peripheral edge of the rear side of the front cover 54 as in the case of the rear cover 55. Three locks 64 are attached to the portion of the bulging portion 62 and the outer peripheral portion of the lamp body portion 53 in the circumferential direction at intervals. Therefore, when the bulging portion 62 is positioned by engaging with the flange 61 of the ring panel 11 and the lock 64 is engaged, the lamp body portion 53 and the front cover 54 are also firmly locked and fixed.
[0035]
A substantially square intermediate plate 65 as shown in FIGS. 3 and 4 is disposed on the front side of the ring panel 11 provided on the front side of the lamp body 53, and a butterfly bolt 66 and a butterfly nut. 67 (FIGS. 1 and 2). As shown in FIG. 4, a rectangular light hole 68 through which light passes is provided in the central portion of the intermediate plate 65 (on the axis of the light source). Furthermore, quadrangular openings 69 are formed every 90 degrees at four locations (upper and lower left and right) around the light hole 68 of the intermediate plate 65. These openings 69 serve as mask operation windows for operating mask members 70 and 71 described later.
[0036]
Four mask members are arranged on the intermediate plate 65 in correspondence with the central light hole 68 of the intermediate plate 65 and the four openings 69 around it. That is, two mask members 70 are disposed above and below the intermediate plate 65, and two mask members 71 are disposed on the left and right. Guide plates 17 are provided on the left and right sides of the upper and lower mask members 70 to guide the movement of the mask members 70 in the vertical direction (see arrows in FIG. 4). Further, guide plates 18 are provided on the upper and lower sides of the left and right mask members 71 to guide the movement of the mask member 71 in the left-right direction (see the arrows in FIG. 4).
[0037]
The mask members 70 and 71 and the guide plates 17 and 18 are sandwiched between the intermediate plate 65 and a square pressing plate 20 having a square light hole 19 in the center, and the pressing plate 20 and the guide plate 17. , 18, the intermediate plate 65, the spacer 23 disposed at the rear part of the intermediate plate 65, and the square holding plate 22 (FIG. 5) provided with a square light hole 21 at the center part are tightened wing nuts 72. And it is fastened by the fastening knob 73 and fixed integrally.
[0038]
Further, on one side of the mask members 70 and 71, there are provided mask member operating handles 70A and 71A that are gripped when the mask members 70 and 71 are moved in the vertical and horizontal directions. The handles 70A and 71A are bent in a substantially L shape so that the directions thereof are alternately opposite to each other, and when assembled, the directions are directed to the front side and the rear side. The handles 70 </ b> A and 71 </ b> A facing the rear side are fitted in the opening 69 of the intermediate plate 65. The ring panel 11, the intermediate plate 65, the mask members 70 and 71, the presser plate 20 and the holding plate 22 constitute a mask means.
[0039]
The mask members 70 and 71 match the light irradiated from the light source 7 to the Fresnel lens 24 with the shape of the irradiated body so that the light irradiated from the Fresnel lens 24 substantially irradiates only the irradiated body. limit. That is, by appropriately moving the four-way mask members 70 and 71 that are movably provided on the intermediate plate 65, an opening is formed by the mask members 70 and 71 in front of the light hole 68 of the intermediate plate 65. Only the object to be irradiated is irradiated by allowing the light from the light source to pass through the part.
[0040]
As shown in FIGS. 1, 2, and 5, the front end portion (light outlet) of the square cylindrical integrator 25 is fitted and fixed to the light hole 68 of the intermediate plate 65. The integrator 25 is inserted through the light hole 21 of the ring panel 11 and the holding plate 22 so as to extend backward in the lamp body 53, and its axis coincides with the axis of the light source 7. The integrator 25 is provided with a plurality of reflecting mirrors inside, and reaches the exit side while reflecting the light entering from the entrance, and makes the light with high uniformity with little difference in intensity of light.
[0041]
Further, as shown in FIGS. 1 and 6, the front side of the ring panel 11 of the lamp frame 60 fixed to the front part of the lamp body 53 has a columnar shape extending in the front direction, that is, in the front cover 54. Four shafts 26 are protruded. The shaft 26 is attached at four intervals of up, down, left and right at intervals of 90 degrees. As shown in FIG. 1, the intermediate portion of the shaft 26 is held by a ring member 74 (FIG. 1), and a screw portion 26 a is engraved near the tip of the shaft 26. The Fresnel lens 24 is attached to the site of the screw portion 26a.
[0042]
As shown in FIG. 7, the outer peripheral portion of the Fresnel lens 24 is formed in a polygonal shape (substantially a quadrangle with corners cut out), and the corner portions are sandwiched by metal ring frames 75 from both sides. . Lens spacers 76 are interposed at four positions of the ring frame 75 where the Fresnel lens 24 is not sandwiched. By using the ring frame 75 and the lens spacer 76 in this way, the lens 24 is protected so that no load is applied to the surface of the lens 24. The lens spacer 76 has a substantially rectangular shape as shown in FIG. 8, and an O-ring 78 is attached to the curved recess 77. Further, a shaft hole 79 is provided at the center of the lens spacer 76, and the tip end portion of the shaft 26 is seen through the shaft hole 79 (FIG. 7).
[0043]
Therefore, as shown in FIG. 1, the Fresnel lens 24 sandwiched by the ring frame 75 is inserted into the screw portion 26a at the tip end portion of the shaft 26, and is screwed into the screw portion 26a before and after the ring frame 75. The Fresnel lens 24 is fixed by tightening 80. If the lens 24 is moved by moving the nut 80, the focal point of the lens 24 can be adjusted.
[0044]
Further, when adjusting the focus of the Fresnel lens 24 and the integrator 25, as shown in FIG. 6, a focus adjustment spacer 81 is inserted between the ring panel 11 of the lamp frame 60 and the intermediate plate 65. . If the intermediate plate 65 is moved forward together with the integrator 25 (FIG. 5) by inserting the focus adjustment spacer 81, the focus can be easily adjusted. Therefore, it is easier to adjust the focal point in the field than to move the nut 80 screwed to the shaft 26 and move the Fresnel lens 24 together with the ring frame 75 to shift the focal point.
[0045]
Further, as shown in FIGS. 9 to 11, the projector body 52 of the cylindrical projector 51 is attached to and held by a U-shaped support arm 27 (FIG. 12). That is, the projector main body 2 is rotatably held in the vertical direction by the bolts 28 and the nuts 29 inserted through the bolt holes 82 formed in the support arm 27. Thus, the vertical inclination of the lens 24 of the projector 51 can be adjusted.
[0046]
Further, as shown in FIG. 1, a recess 83 is formed on the outer periphery of the lamp body 53 of the projector 51, and a ballast box 84 containing a stabilizer (not shown) is fitted into the recess 83, and a wing nut 85 is used. It is fixed. In the present embodiment, since the capacity of the light source 7 is 150 W, the shape of the ballast box 84 can be formed into a cube having a side of approximately 30 cm, and can be assembled integrally with the lamp body 53. In FIG. 1, reference numeral 86 denotes a rib provided on the circumference of the front cover 54.
[0047]
Next, adjustment of the irradiation range when the projector 51 configured as described above is installed at a predetermined position will be described. First, whether or not the light emitted from the projector 51 accurately irradiates the irradiated object, that is, the emitted light extends beyond the outline of the irradiated object, or is more than the outline of the irradiated object. It is necessary to confirm whether or not the irradiation is performed in a narrow and narrow manner. In that case, the lock | rock which assembled | attached the lamp | ramp part 53 of the projector main body 52 and the rear cover 55 is cancelled | released, and the rear cover 55 is opened centering | focusing on the hinge 10. As shown in FIG.
[0048]
Then, as shown in FIG. 5, the integrator 25, the intermediate plate 65, and the handles 70 </ b> A and 71 </ b> A of the mask members 70 and 71 can be visually observed from the rear part of the projector 51. As shown in FIG. 1, if the operator's eyes are positioned at a position on the substantially axial line of the integrator 25 (preferably at the rear end of the integrator 25, that is, near the light entrance of the integrator 25), the Fresnel lens 24. The image (inverted image) of the irradiated object that is connected to the focal point can be viewed through the integrator 25.
[0049]
Therefore, while observing the irradiated object on the axis of the integrator 25, the grips 70A and 71A of the mask members 70 and 71 are gripped, and the mask members 70 and 71 are moved up and down and left and right to effectively apply the mask member to the irradiated object. A clear opening is formed. When the light source 7 is turned on, an image of the irradiated object that can be visually recognized through the opening is irradiated with light passing through the Fresnel lens 24.
[0050]
And after forming the effective opening part with respect to a to-be-irradiated body, as shown in FIG. 13, if the light source 7 of the light projector 51 is turned on, the light radiated | emitted from the light source 7 (it shows with a broken line) will be the center of the light source 7. It is focused by the ellipsoidal reflecting mirror 8 focused on the part and the entrance part of the integrator 25, and reaches the inside from the entrance of the integrator 25. The light deviated from the ellipsoidal reflecting mirror 8 is converged by the spherical reflecting mirror 9 having a center near the center of the light source 7 and returns to the vicinity of the center of the light source 7. To reach. Thereby, approximately 80% or more of the light of the light source 7 can be taken into the integrator 25 and used.
[0051]
Next, most of the light entering the integrator 25 is reflected by a plurality of reflecting mirrors except for the direct light of the light source 7 passing through the axis, and reaches the exit of the integrator 25. The light exiting the integrator 25 passes through the effective opening formed by the mask members 70 and 71 of the mask means, and further passes through the Fresnel lens 24 that forms an image near the irradiation target that is separated by a predetermined distance. The irradiated body is properly irradiated. The light irradiated in this way is limited to the range of the similar shape of the end face shape of the exit of the integrator 25 (that is, the effective opening formed by the mask members 70 and 71), and light with high uniformity is irradiated. The body will be irradiated.
[0052]
【The invention's effect】
  Since the present invention is a projector configured as described above,1According to the described invention, the rear cover is assembled to the rear side of the lamp body so as to be openable and closable, and the window for operating the mask member is provided on the intermediate plate constituting the mask means provided inside the projector main body. Since the handle of the mask member arranged on the front side of the intermediate plate is positioned, the mask member of the projector can be moved up, down, left and right from the rear side of the intermediate plate by the mask member operating window and handle. Thus, the effective opening formed by the mask member can be freely adjusted from the rear side.
[0053]
If the mask member can be operated from the rear side in this way, the irradiated object can also be seen from the rear side of the integrator, and while the light source is not turned on during the day, the irradiated object is confirmed by the integrator. The light irradiation range can be appropriately adjusted by moving the mask member. Further, since the ballast box is arranged in the projector main body, the installation work of the projector can be easily performed.
[0054]
  Also, MaThe mask member handle provided on one side of the disk member is alternately bent in the opposite direction, and a portion of this handle is fitted to the mask member operation window provided on the intermediate plate, so the mask member is The operation can be easily adjusted from the rear of the projector.
[0055]
  Claims2Since the focus adjustment spacer is interposed between the ring plate and the intermediate plate, the integrator integrated with the intermediate plate can be moved on the axis. As a result, the focal point of the integrator can be easily moved. Therefore, the focal point can be adjusted more easily than when the Fresnel lens is moved.
[Brief description of the drawings]
FIG. 1 is a partial sectional view schematically showing an embodiment of the present invention.
FIG. 2 is an enlarged view of a portion A shown in FIG.
FIG. 3 is a perspective view of the mask means of the present invention.
4 is an exploded perspective view of the mask means shown in FIG. 3. FIG.
FIG. 5 is a perspective view of the intermediate plate shown in FIG. 3 as viewed from the right rear.
6 is a perspective view showing a part of what is shown in FIG. 3, with the corners of the intermediate plate cut away. FIG.
FIG. 7 is a front view for explaining a Fresnel lens.
FIG. 8 is a front view of the lens spacer shown in FIG.
FIG. 9 is a side view of the projector according to the present invention.
10 is a left side view of what is shown in FIG. 9. FIG.
FIG. 11 is a right side view of what is shown in FIG. 9;
12 is a perspective view of the support arm shown in FIG. 9. FIG.
FIG. 13 is a schematic view showing the spread of light of the projector according to the present invention.
FIG. 14 is a cross-sectional view of a conventional projector.
15 is a left side view of the projector shown in FIG.
16 is a right side view of the projector shown in FIG.
FIG. 17 is a perspective view showing attachment of a conventional mask member.
18 is an exploded perspective view of the mask member shown in FIG.
FIG. 19 is a perspective view of the intermediate plate shown in FIG. 17 as viewed from the right rear.
FIG. 20 is a front view of a conventionally used ballast box.
[Explanation of symbols]
6 Front glass
7 Light source
8 Ellipsoidal reflector
9 Spherical reflector
11 Ring panel
20 Presser plate
22 Retaining plate
24 Fresnel lens
25 Integrator
51 Floodlight
52 Projector body
53 Lamp body
54 Front cover
55 Rear cover
65 Intermediate plate
68 light hole
69 Window for mask member operation
70 Mask material
70A Handle for mask member operation
71 Mask member
71A Handle for mask member operation
81 Focus adjustment spacer
83 recess

Claims (2)

In a projector that arranges a lens and a light source in the projector main body, irradiates the irradiated object with light from the light source through the lens, and allows the passerby to visually recognize the irradiated object,
A cylindrical front cover provided with a front glass is detachably assembled to the front side of the cylindrical lamp body of the projector body, and a cylindrical lamp provided with a light source and a reflecting mirror on the rear side of the lamp body. A rear cover is assembled so as to be openable and closable, and in an approximately middle portion on the axis in the projector main body, a plurality of reflectors are provided inside, and an integrator is arranged to reach the outlet while reflecting the light introduced from the inlet, A mask means having a mask member operable from the rear part of the projector main body for controlling an irradiation range of light irradiated to the irradiated object is provided at a front portion of the integrator, and a ballast is provided in a concave portion formed in the projector main body. Place the box ,
The mask means includes a ring panel attached to the lamp body, an optical hole fixed to the ring panel, a light hole in the center, and a window for operating a mask member around the light hole. A plate, a mask member disposed on one side of the intermediate plate and corresponding to the window for operating the mask member, a pressing plate for movably pressing the mask member, and the intermediate plate It is arranged on the other side and is composed of a holding plate that sandwiches the intermediate plate and the mask member together with the pressing plate,
A mask member operating handle is alternately bent in opposite directions on one side of the mask member, and one of the handles is fitted to the mask member operating window of the intermediate plate. Floodlight. A ring panel is fixed to the front side of the lamp body, an intermediate plate having a light hole at the center is attached to one side of the ring panel, and the tip of the integrator is fixed to the light hole of the intermediate plate The projector according to claim 1 , wherein a focus adjusting spacer is detachably interposed between the intermediate plate and the ring panel .

Images