JP2014212025A - Electrical apparatus and projector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a projector that can be fixed in a radiation direction even by hooking a hook to a single pipe.SOLUTION: An electrical apparatus (projector) comprises: a body part 10 having a conversion part (LED) for converting power into any of light, wind, heat and sound, and an output part (transparent plate) for outputting any of the light, wind, heat and sound outputted from the conversion part to outside; and a frame part 20 for rotatably supporting the body part 10. The frame part 20 is provided with a first ground face (a ground face defined by a pair of bottom frames 24) that can contact a ground. The output part (transparent plate) is arranged on the first ground face nearer a front side, and a claw part 26 is provided on the first ground face nearer a rear side.

Description

  The present invention relates to an electric device and a projector that convert electric power into light, wind, heat, or sound and output the same to the outside.

  When using electrical equipment that converts electric power into light, wind, heat or sound and outputs it to the outside, it is necessary to fix it in the light, wind, heat or sound output direction. It is mounted on a flat surface or attached to a tripod with a fastener such as a vise.

JP 2002-254358 A

  However, there is a demand for an electric device that can be easily hooked on a single pipe of a scaffold without using a fastening tool when working at a high place or at a high position. In electrical equipment for work, as shown in Patent Document 1, it has been proposed to provide a rotatable hook on the handle portion. It is conceivable to install this hook in an electrical device that outputs light, wind, heat, or sound, but it cannot be fixed in the light, wind, heat, or sound output direction by simply hooking the hook on a single pipe. At the same time, since the hook is provided on the handle portion, there is a problem that the hook portion becomes an obstacle when it is carried.

  The present invention has been made in view of the above situation, and an object of the present invention is to solve the above-described problems and to provide a projector that can be fixed in an output direction only by hooking a hook onto a single pipe. To do. Another object of the present invention is to provide an electric device and a projector that do not obstruct the hook when being carried.

The electrical device of the present invention includes a conversion unit that converts electric power into light, wind, heat, or sound, and an output unit that outputs any of light, wind, heat, or sound output from the conversion unit to the outside. And a frame part that rotatably supports the main body part, wherein the frame part is provided with a first grounding surface that can contact the ground. The output portion is disposed from the front side with respect to the first grounding surface, and a hook-like hook is provided from the rear side with respect to the first grounding surface.
Furthermore, in the electrical device of the present invention, the frame portion is provided with a support mechanism portion that rotatably supports the main body portion, and the output portion is disposed forward with respect to the support mechanism portion. ,
A battery pack that supplies electric power to the conversion unit may be attached to the main body unit behind the support mechanism unit.
In addition, the electrical device of the present invention converts a power into light, wind, heat, or sound, and outputs any of light, wind, heat, or sound output from the converter to the outside. An electric device comprising: a main body having an output portion; and a frame portion that rotatably supports the main body,
The frame portion is provided with a hook-shaped hook, and in a state where the hook is hooked on the single pipe, both the battery pack and the single pipe that supply electric power to the converter are included in the frame portion. It is comprised so that it may be located inside the guard area | region covered with outer periphery.
In addition, the electrical device of the present invention converts a power into light, wind, heat, or sound, and outputs any of light, wind, heat, or sound output from the converter to the outside. An electric device comprising: a main body having an output portion; and a frame portion that rotatably supports the main body,
The main body is pivotally connected to the frame about a pivot shaft extending in the left-right direction of the main body, and the frame is provided with a hook-like hook. The hook is configured to be movable in the left-right direction with respect to the single pipe while the hook is hooked on the single pipe.
The projector of the present invention includes a main body having an irradiation surface of light emitted from the built-in light source on the front surface side, and a frame that guards the main body, and the frame includes The nail | claw part in which the recessed part extended in the direction substantially orthogonal to an irradiation direction was formed in the opposing surface with a main-body part is provided.
Furthermore, the projector according to the present invention may include a support mechanism that rotatably supports the main body by a rotation shaft that is substantially parallel to the direction in which the concave portion is formed.
Furthermore, in the projector according to the present invention, the concave portion may be formed of a partially cylindrical curved surface whose axial direction is substantially orthogonal to the irradiation direction.
Furthermore, in the projector according to the present invention, the concave portion is formed of a partially cylindrical curved surface whose axial direction is substantially orthogonal to the irradiation direction, and when the radius of curvature of the concave portion is R, the claw portion includes the main body portion. You may arrange | position in the position at least 2R or more with respect to the rotation area | region.
Furthermore, in the projector according to the present invention, the main body portion includes a housing having an irradiation surface of light emitted from a built-in light source on a front surface side, and a battery mounted on the rear surface side of the housing,
The rotating shaft may be provided between the housing and the battery.
Furthermore, in the projector of the present invention, the frame portion includes a pair of side frames that guard the side surfaces of the main body portion, and a pair of bottom frames that extend rearward from the lower ends of the pair of side frames and serve as legs. And a top frame that connects the pair of side frames and a connection frame that connects the pair of bottom frames, and the claw portion may be provided on the connection frame.
Further, the projector of the present invention includes a main body having an irradiation surface of light emitted from the built-in light source on the front side, a pair of side frames guarding the side surfaces of the main body, and a pair of the side frames. A pair of bottom frames that extend rearward from the lower end and serve as legs, a top frame that connects the pair of side frames, a connection frame that connects the pair of bottom frames, and a hook provided on the connection frame It is characterized by comprising.

  According to the present invention, the output direction of light, wind, heat, or sound can be fixed in a direction intersecting with the single pipe by simply hooking the claw portion serving as a hook onto the single pipe. According to the present invention, since the hook is provided on the connection frame different from the top frame functioning as a handle, the hook does not interfere with carrying.

It is a perspective view which shows the structure of 1st Embodiment of the projector which is an electric equipment which concerns on this invention. It is an orthographic projection figure which shows the external appearance structure of the main-body part shown in FIG. It is a partial side cross section which shows the internal structure of the main-body part shown in FIG. It is explanatory drawing for demonstrating the positional relationship of LED shown in FIG. 1, and a cover member. It is an orthographic projection figure which shows the structure of the projector shown in FIG. It is a perspective view which shows the usage example at the time of the downward irradiation of the light projector shown in FIG. It is a perspective view which shows the usage example at the time of upward irradiation of the light projector shown in FIG. It is a side view which shows the usage example at the time of the horizontal irradiation of the light projector shown in FIG. It is a side view which shows the usage example at the time of upward irradiation of the light projector shown in FIG. It is a side view which shows the usage example at the time of the downward irradiation of the light projector shown in FIG. It is a perspective view which shows the structure of 2nd Embodiment of the projector which is an electric equipment which concerns on this invention. It is a perspective view which shows the structure of 3rd Embodiment of the projector which is an electric equipment which concerns on this invention. It is explanatory drawing for demonstrating the example of attachment of the elastic member shown in FIG. It is a perspective view which shows the structure of 4th Embodiment of the projector which is an electric equipment which concerns on this invention. It is a side view which shows the structure of 5th Embodiment of the projector which is an electric equipment which concerns on this invention.

  Next, embodiments of the present invention will be specifically described with reference to the drawings. In addition, the same code | symbol is attached | subjected to the same or equivalent component, member, process, etc. which are shown by each drawing, and the overlapping description is abbreviate | omitted suitably.

(First embodiment)
The electric device according to the first embodiment is a projector 1 that converts electric power into light for irradiation. Referring to FIG. 1, the projector 1 includes a main body portion 10 in which a plurality of LEDs 2 that are light sources are incorporated, and a frame portion 20 that surrounds the main body portion 10 and guards the main body portion 10. The LED 2 functions as a conversion unit that converts electric power into light.

  1 and 2, the main body 10 includes a hollow disk-shaped housing 11, a disk-shaped transparent plate 12 disposed on the front surface side of the housing 11, and the housing 11 from the front surface side of the transparent plate 12. An attached cover member 13, a battery holding portion 14 formed on the rear surface side of the housing 11, and a battery pack 15 that is a battery for lighting the LED 2 are provided. In FIG. 2, (a) is a front view, (b) is a side view, (c) is a rear view, (d) is a top view, and (e) is a bottom view. . The transparent plate 12 functions as an output unit that outputs the light emitted from the LED 2 to the outside.

  A battery pack 15 containing a plurality of battery cells such as nickel metal hydride and lithium ions is detachably attached to the battery holding unit 14. A switch 16 is provided on the upper surface of the housing 11. The battery holding unit 14 is electrically connected to the battery pack 15 and the switch 16, and the lighting of the LED 2 is controlled according to the operation of the switch 16. A control board (not shown) is accommodated.

  Referring to FIG. 3, a printed circuit board 17, which is an LED board on which a plurality of LEDs 2 are mounted, is accommodated in the housing 11 with the mounting surface of the LEDs 2 facing the front side. As the transparent plate 12, an acrylic plate or glass plate having excellent transparency is used, and the transparent plate 12 serves as an irradiation surface for light emitted from the LED 2. A spacer 18 is provided between the transparent plate 12 and the printed circuit board 17, and is disposed to face the mounting surface of the LED 2 on the printed circuit board 17 with a predetermined interval. Therefore, the light emitted from the LED 2 passes through the transparent plate 12 that is the irradiation surface and is irradiated to the front side of the housing 11. A gap between the LED 2 mounted on the printed circuit board 17 and the transparent plate 12 serves as a heat radiation clearance for radiating heat generated from the LED 2.

  The cover member 13 is a member for preventing the transparent plate 12 from being damaged. 1 and 2A, the cover member 13 is disposed on the periphery of the transparent plate 12, that is, the irradiation surface, and covers the edge 131 that covers the periphery of the irradiation surface, and the transparent plate 12, that is, on the irradiation surface. And three bar-shaped bumper parts 132 that cover the irradiation surface. The bumper part 132 is arrange | positioned in the position which does not block the light emitted from LED2. That is, as shown in FIG. 4, when the irradiation angle of the LED 2 is “θ”, the heat radiation clearance between the LED 2 and the transparent plate 12 is “L0”, and the thickness of the transparent plate 12 is “L1”, the LED 2 emits light. The spread of the light is La = 2 (L0 + L1) * tan (θ / 2) on the surface of the transparent plate 12. Therefore, the irradiation area (area through which the light emitted from the LED 2 is transmitted) on the surface of the transparent plate 12 corresponds to the arrangement of the LED 2 and is a circle having a diameter La as shown by a one-dot chain line in FIG. It becomes. The shapes of the edge 131 and the bumper 132 of the cover member 13 are set so as to avoid the irradiation area on the surface of the transparent plate 12. The spacer 18 provided between the transparent plate 12 and the printed circuit board 17 is also disposed at a position facing the edge portion 131 and the bumper portion 132 of the cover member 13 while avoiding the irradiation region on the surface of the transparent plate 12. Has been.

  In the first embodiment, as shown in FIG. 1, four LED rows in which a plurality of LEDs 2 are arranged in the horizontal direction are arranged. The interval between the LED rows is set to be wider than 2 * La. Accordingly, it is possible to provide the bumper portions 132 by avoiding the irradiation areas between the LED rows. In addition, the space | interval between the bumper parts 132 is set to 2 * La or more avoiding an irradiation area | region. Further, when considering the thickness “L2” of the bumper portion 132, the interval between the bumper portions 132 is set to Lb = 2 (L0 + L1 + L2) * tan (θ / 2) or more, or the spread of the irradiated light It is good to provide an inclined surface corresponding to.

  Referring to FIG. 2, rotating shafts 19 are coaxially provided on both side surfaces of the housing 11, and a tripod hole 3 is formed on the lower surface of the housing 11. The rotation shaft 19 is located between the irradiation surface (transparent plate 12) and the battery pack 15, and is arranged in parallel to the printed circuit board 17 and the transparent plate 12, that is, in a direction orthogonal to the irradiation direction. The tripod hole 3 is formed on the lower surface of the housing 11 which is a portion other than the side surface supported by the frame portion 20 so that the main body portion 10 can be supported by the tripod without removing the frame portion 20 from the main body portion 10. It is configured. The pivot shaft 19 is pivotally supported by a support mechanism portion 21 incorporated in a part of the frame portion 20 as shown in FIGS. In FIG. 5, (a) is a front view, (b) is a side view, (c) is a rear view, and (d) is a top view.

  The frame portion 20 is disposed on both side surfaces of the main body portion 10, and a pair of side frames 22 that guard the side surfaces of the main body portion 10, a top frame 23 that connects upper ends of the pair of side frames 22, and a pair of side frames 22 includes a pair of bottom frames 24 that extend rearward from the lower ends of the 22 and serve as legs, and a connection frame 25 that connects the rear ends of the pair of bottom frames 24. The side frame 22, the top frame 23, and the bottom The frame 24 and the connection frame 25 are integrated so as not to move relative to each other. As shown in FIG. 5B, in the state where the front surface of the main body 10 provided with the transparent plate 12 serving as the output portion faces frontward, as shown in FIG. When the front side is viewed, the side frames 22 are located on the left and right sides of the main body 10, the top frame 23 is located above the main body 10, and the bottom frame 24 is located below the main body 10. . The support mechanism portion 21 is incorporated in a part of the side frame 22 and pivotally supports the rotation shaft 19 of the main body portion 10 so as to be substantially orthogonal to the side frame 22. The top frame 23 and the bottom frame 24 are substantially parallel to the rotation shaft 19 of the main body 10, and are not in contact with each other even if the main body 10 rotates about the rotation shaft 19, that is, the position of the main body 10. It is arranged outside the rotation area.

  The side frame 22 and the bottom frame 24 are substantially L-shaped when viewed from the side. The angle formed by the side frame 22 and the bottom frame 24 is set to an acute angle, and the center of gravity of the main body 10 is the side surface shown in FIG. 5B even if the main body 10 rotates about the rotation shaft 19. It is configured so as to be always located on the bottom frame 24 in view. As a result, the projector 1 can stand on its own in a state where the bottom frame 24 and the connection frame 25 serving as legs are grounded, that is, in a state where the first grounding surface defined by the pair of bottom frames 24 is installed on the ground. It is. In the first embodiment, the angle formed by the side frame 22 and the bottom frame 24 is set to approximately 60 degrees. In a state where the bottom frame 24 and the connection frame 25 are grounded and the projector 1 is self-supported, the rotation shaft 19, the bottom frame 24, and the connection frame 25 of the main body 10 are disposed substantially parallel to the ground plane. Thus, the main body 10 and the battery pack 15 can rotate with respect to the frame 20 without contacting the ground. Further, in a state where the bottom frame 24 and the connection frame 25 are grounded and the projector 1 is self-supported, the bottom frame 24 and the connection frame 25 are located on the rear side of the rotation shaft 19 of the main body 10. Therefore, by rotating the main body 10, the light irradiated from the front surface (transparent plate 12) side of the main body 10 is not blocked by the bottom frame 24 and the connection frame 25, and the irradiation direction is changed over a wide range on the front side. It can be moved up and down. Further, in a state where the bottom frame 24 and the connection frame 25 are grounded and the projector 1 is self-supporting, the top frame 23 is disposed substantially parallel to the ground plane. Accordingly, the top frame 23 is disposed at a position that is easily gripped by the user substantially above the main body 10 and functions as a handle for carrying the projector 1.

  As shown in FIGS. 5B and 5C, the connection frame 25 is formed with a claw portion 26 that protrudes substantially upward and forms an angle of approximately 90 degrees with the bottom frame 24. That is, the front surface of the main body 10 on which the transparent plate 12 serving as the output unit is provided from the front with respect to the first ground surface is disposed, and the claw portion 26 is provided from the rear with respect to the first ground surface. It has been. A recess 26 a extending in a direction substantially parallel to the rotation shaft 19 of the main body portion 10 is formed on the surface of the claw portion 26 facing the main body portion 10. Thereby, the nail | claw part 26 functions as a hook-shaped hook. As shown in FIG. 6, the projector 1 can be used in a state of being hung on the single pipe 40 by hooking the claw portion 26 on the single pipe 40 with the projector 1 upside down. In the state suspended from the single pipe 40, the recess 26 a contacts the single pipe 40, so that the rotation shaft 19 is positioned substantially parallel to the single pipe 40, and the light from the projector 1 Irradiation is performed in a direction intersecting 40, that is, in a direction substantially perpendicular to the direction. In addition, the connection frame 25 is positioned above the rotating shaft 19 of the main body 10 in a state where it is suspended from the single pipe 40. Therefore, by rotating the main body 10, the light irradiated from the front surface (transparent plate 12) side of the main body 10 can be moved in a wide range on the lower side without being blocked by the connection frame 25. it can. In the present embodiment, the concave portion 26a is formed of a partially cylindrical curved surface whose axial direction is substantially parallel to the rotation shaft 19 of the main body portion 10, and the curvature radius R of the concave portion 26a is a single pipe pipe. Since the standard is 48.6 mm in diameter, for example, the radius R is set to 24.3 mm. Even if the main body 10 rotates about the rotation shaft 19 in a state where the single pipe 40 having the radius R is in contact with the recess 26a, the claw 26 is connected to the main body 10 and the single pipe 40. It is arrange | positioned in the position which does not contact. That is, the claw portion 26 is disposed at a position away from the turning region of the main body portion 10 by at least twice the radius of curvature R of the concave portion 26a. Further, since the concave portion 26a is formed of a partially cylindrical curved surface, the claw portion 26 is placed in the left-right direction with respect to the single pipe pipe 40 in a state where the claw section 26 is hooked on the single pipe pipe 10, that is, in the single pipe pipe 10. It is easy to move along.

  Further, as shown in FIG. 7, the projector 1 has a second state defined by a state in which the top frame 23 and the claw 26 of the connection frame 25 are grounded, that is, the top frame 23 and the claw 26 of the connection frame 25. Even if the ground contact surface is installed on the ground, it can stand on its own. In a state in which the top frame 23 and the connection frame 25 are grounded and the projector 1 is self-supporting, the rotation shaft 19, the bottom frame 24, and the connection frame 25 of the main body 10 are disposed substantially parallel to the ground plane. The part 10 and the battery pack 15 can be rotated with respect to the frame part 20 without contacting the ground. Further, in a state where the top frame 23 and the connection frame 25 are grounded and the projector 1 is self-supported, the bottom frame 24 and the connection frame 25 are positioned below the rotation shaft 19 of the main body unit 10. Therefore, by rotating the main body 10, the light irradiated from the front surface (transparent plate 12) side of the main body 10 is not blocked by the bottom frame 24 and the connection frame 25, and the irradiation direction is changed over a wide range on the upper side. Can be moved.

  The frame part 20 is configured by a plurality of molded products by resin molding using a hard resin. The substantially U-shaped top frame 23 and the side frame 22 up to the support mechanism portion 21 are integrally configured by a molded product divided into two. Further, the bent portion including the side frame 22 and the bottom frame 24 from the support mechanism portion 21 to the connection frame 25 is also integrally formed by a molded product divided into two. Thereby, the number of molded products constituting the frame part 20 can be reduced, and the assembly process can be simplified.

Next, a usage example of the projector 1 will be described in detail with reference to FIGS. 8 to 10.
The projector 1 can set the irradiation direction at all angles in the vertical direction from directly above to directly below by rotating around the rotation shaft 19.
The setting of the irradiation direction at the time of horizontal irradiation from the upper oblique 45 degrees to the lower oblique 45 degrees can be handled in a state where the bottom frame 24 and the connection frame 25 are grounded and the projector 1 is made independent. FIG. 8 shows a state in which the bottom frame 24 and the connection frame 25 are grounded and the projector 1 is self-supported. In (a), the irradiation direction is set horizontally toward the front, (b) In FIG. 5, the irradiation direction is set downward 45 degrees forward, and in (c), the irradiation direction is set upward 45 degrees forward.

  As shown in FIG. 8 (a), a state where the irradiation surface is vertical and the irradiation direction is set to be horizontal toward the front is a home position considered to be most frequently used. In this home position, the battery pack 15 is disposed in a guard area that is an area surrounded by the outer periphery of the frame portion 20. That is, the battery pack 15 is disposed in a substantially triangular guard area having two sides of the side frame 22 and the bottom frame 24 in a side view seen from the side frame 22 side, and is in a space guarded by the frame portion 20. Located in. Therefore, even if the projector 1 falls or falls, the battery pack 15 is guarded by the frame portion 20 and no impact is directly applied to the battery pack 15. When the impact is directly applied to the battery pack 15, the battery pack 15 is heavy, and thus there is a high possibility that the mounting mechanism with the battery holding unit 14 is damaged. Therefore, the projector 1 is configured such that the side pack 22 and the bottom frame 24 of the frame unit 20 efficiently guard the battery pack 15 that is vulnerable to shock so that the shock does not directly act on the battery pack 15. Thus, the durability of the projector 1 is improved. Further, as shown in FIG. 8A, the front surface of the main body portion 10 provided with the transparent plate 12 serving as an output portion is provided in front of the support mechanism portion 21 constituting the side frame 22 (left direction in the drawing). In this state, the frame portion 20 has a first grounding surface extending substantially in the front-rear direction below the support mechanism portion 21, and a second grounding surface extending substantially vertically in the rear of the support mechanism portion 21. It is configured.

  As shown in FIG. 8 (b), the battery pack 15 includes the side frame 22 and the bottom frame in a side view as seen from the side frame 22 side even when the irradiation direction is set to be obliquely upward 45 degrees forward. 24 is arranged in a substantially triangular guard region having two sides. Therefore, even if the projector 1 falls or falls within the rotation range of FIGS. 8A to 8B, the battery pack 15 is guarded by the frame portion 20, and the impact does not directly act on the battery pack 15. .

  As shown in FIG. 8 (c), in a state where the irradiation direction is set downward 45 degrees obliquely forward, most of the rear side of the battery pack 15 in the side view seen from the side frame 22 side is The side frame 22 and the bottom frame 24 are arranged in a substantially triangular guard region having two sides. Therefore, even if the projector 1 falls or falls within the rotation range of FIGS. 8A to 8C, the impact on the rear side is guarded by the frame portion 20 and does not directly act on the battery pack 15. In the state shown in FIG. 8C, a part of the battery pack 15 protrudes forward from the side frame 22, that is, a part of the battery pack 15 is exposed outside the guard region. Since the housing 11 of the main body 10 protrudes outward from the battery pack 15, even if the projector 1 falls or falls forward, the impact is applied to the housing 11 and the cover member 13 first. The impact does not act directly on the pack 15.

  The setting of the irradiation direction at the time of upward irradiation from 45 degrees upward to right above can be handled in a state where the top frame 23 and the claw portion 26 of the connection frame 25 are grounded and the projector 1 is self-supporting. FIG. 9 shows a state where the top frame 23 and the claw portion 26 of the connection frame 25 are grounded and the projector 1 is self-supported. In FIG. 9A, the irradiation direction is directed upward 45 degrees obliquely forward. In (b), the irradiation direction is set directly above.

  As shown in FIG. 9 (a), in the state where the irradiation direction is set upward 45 degrees obliquely forward, the front surface of the main body portion 10 provided with the transparent plate 12 as the output portion is the guard region. Located outside, the battery pack 15 is located inside the guard area. In other words, the battery pack 15 is disposed in a substantially triangular guard region having two sides of the side frame 22 and the bottom frame 24 in a side view as viewed from the side frame 22 side. Accordingly, even if the projector 1 falls or falls in this state, the battery pack 15 is guarded by the frame portion 20 and no impact is directly applied to the battery pack 15.

  As shown in FIG. 9 (b), the battery pack 15 has two side frames 22 and two bottom frames 24 in the side view as seen from the side frame 22 side even when the irradiation direction is set to face directly upward. It is arranged in a substantially triangular guard area as a side. Therefore, even if the projector 1 falls or falls within the rotation range of FIGS. 9A to 9B, the battery pack 15 is guarded by the frame portion 20, and the impact does not directly act on the battery pack 15. .

  The setting of the irradiation direction at the time of downward irradiation from 45 degrees downward to right below can be dealt with by using the projector 1 while being suspended from the single pipe 40. FIG. 10 shows a state in which the projector 1 is suspended from the single pipe 40. In (a), the irradiation direction is set downward 45 degrees obliquely forward, and in (b), the irradiation direction. Is set right below. Note that, in a state where the claw portion 26 is hooked on the single tube pipe 40, both the battery pack 15 and the single tube pipe 40 are configured to be located inside the guard region covered with the outer periphery of the frame portion.

  As shown in FIG. 10 (a), in a state where the irradiation direction is set to a downward slant of 45 degrees forward, the battery pack 15 includes the side frame 22 and the bottom frame as viewed from the side frame 22 side. 24 is arranged in a substantially triangular guard region having two sides. Accordingly, even if the projector 1 falls or falls in this state, the battery pack 15 is guarded by the frame portion 20 and no impact is directly applied to the battery pack 15.

  As shown in FIG. 10B, the battery pack 15 has two sides of the side frame 22 and the bottom frame 24 in a side view as viewed from the side frame 22 even when the irradiation direction is set to be directly below. Are arranged in a substantially triangular guard area. Therefore, even if the projector 1 falls or falls within the rotation range of FIGS. 10A and 10B, the battery pack 15 is guarded by the frame portion 20, and the impact does not directly act on the battery pack 15. .

  As described above, when the projector 1 is normally used, the whole or most of the battery pack 15 has two sides of the side frame 22 and the bottom frame 24 in a side view as viewed from the side frame 22 side. It is arranged in a substantially triangular guard area. And even if the main-body part 10 rotates, the battery pack 15 protrudes out of a guard area | region only from the side frame 22 side, the bottom frame 24 side, the upper end part of the side frame 22, and the edge part of the bottom frame 24 are connected. It does not protrude outside the guard area from the side to be connected. Therefore, even if the projector 1 falls or falls, the impact on the rear side is guarded by the frame portion 20 and does not act directly on the battery pack 15. 8 (b) to 8 (c), that is, the bottom frame 24 is grounded, the transparent plate 12 of the main body 10 is vertical, and the irradiation direction is set to be frontward and horizontal. The protrusion amount of the housing 10 from the side frame 22 side to the outside of the guard region is always larger than the protrusion amount of the battery pack 15 from the side frame 22 side to the outside of the guard region in the rotation range of 45 degrees in the vertical direction. It is configured. With this configuration, even if the projector 1 falls or falls forward, the impact is applied to the housing 11 and the cover member 13 first, and the impact is not directly applied to the battery pack 15.

  Further, the rotation of the main body 10 may be limited to a range in which the protruding amount from the side frame 22 side of the housing 10 to the outside of the guard region exceeds the protruding amount from the side frame 22 side of the battery pack 15 to the outside of the guard region. it can. With this configuration, the range of normal use of the projector 1 can be set, and damage due to an unexpected usage method can be prevented.

(Second Embodiment)
Referring to FIG. 11, the projector 1 a according to the second embodiment is different from the first embodiment in the configuration of the frame portion 20 a, and the hook whose base end portion is rotatably supported by the connection frame 25 a. 27 and the projector 1a can be used in a suspended state by hooking the hook 27 on the single pipe 40 with the projector 1a upside down. The connection frame 25a is formed with a storage groove 251 in which the hook 27 is stored. Thereby, when the projector 1a is not suspended and used, it can be stored in the storage groove 251 of the connection frame 25a.

(Third embodiment)
Referring to FIG. 12, the projector 1b according to the third embodiment is different from the first embodiment in the configuration of the frame portion 20b, and the support incorporated in a part of the side frame 22a in the side frame 22a. The mechanism portion 21 is connected via an elastic member 28, and the main body portion 10 and the support mechanism portion 21 are connected via an elastic member 29. Although the elastic member 28 and the elastic member 29 are provided in the present embodiment, only one of them may be provided.

  For the elastic members 28 and 29, for example, a soft material obtained by resin molding using a soft resin can be used. By providing the elastic members 28 and 29, when an impact acts on the frame portion 20 b during a fall or drop, the impact acting on the frame portion 20 b is transmitted to the main body portion 10 after being relaxed by the elastic member 28. . Therefore, the impact acting on the main body 10 can be reduced, and a more durable projector 1b can be provided.

  FIG. 13A shows an example of an attachment structure for the elastic member 28a. An elastic member 28a made of a soft resin such as rubber having a through hole and fitted in an opening formed in the side frame 22a is disposed between the support mechanism portion 21 and the side frame 22a, which are hard resins. Then, the boss formed on the support mechanism portion 21 is inserted into the through hole of the elastic member 28a, and is screwed with the tapping screw 31 with the washer 30 sandwiched from the side frame 22a side, whereby the side frame 22a is interposed via the elastic member 28a. The support mechanism portion 21 is connected to the above. An opening may be formed in the support mechanism portion 21 and a boss may be formed in the side frame 22a.

  FIG. 13B shows another example of the mounting structure of the elastic member 28b. By connecting the support mechanism portion 21 and the side frame 22a, which are hard resin, to the elastic member 28b made of a soft resin such as rubber formed by inserting the nut 32 with the washer 30 between them, the mechanical screw 33 is used. The support mechanism 21 is connected to the side frame 22a via the elastic member 28b.

  FIG. 13C shows another mounting structure example of the elastic member 28c. An elastic member 28c formed of a spring that is an elastic body is fitted into each of the support mechanism portion 21 and the side frame 22a that are made of hard resin while maintaining a space, so that the support mechanism portion is attached to the side frame 22a via the elastic member 28c. 21 is connected.

(Fourth embodiment)
Referring to FIG. 14, the projector 1c of the fourth embodiment is different from the first embodiment in the configuration of the cover member 13a and the frame portion 20c, and all of the cover member 13a and the frame portion 20c. Or the outer part of the one part is comprised with soft materials, such as rubber | gum. For example, the outer portion can be made of a soft material by resin two-layer molding using an elastomer. In the example shown in FIG. 14, as indicated by the oblique lines, the outer portion of the cover member 13 a and a part of the frame portion 20 c (the connection portion between the top frame 23 a, the side frame 22 and the bottom frame 24, the connection frame 25 b) Consists of soft material. With this configuration, since the soft material is provided in the outer portion of the cover member 13a and the frame portion 20c, the impact such as dropping is reduced by the soft material, and the impact transmitted to the main body portion 10 (battery pack 15) is reduced. Therefore, the projector 1c having higher durability can be provided.

(Fifth embodiment)
Referring to FIG. 15, the projector 1 d of the fifth embodiment is different from the first embodiment in the configuration of the main body 10 a, and the housing 11 (cover member 13) shown in FIG. The shortest distance W1 from the front surface to the rotation shaft 19a is set shorter than the shortest distance W2 from the front surface of the side frame 22 to the rotation shaft 19a shown in FIG. With this configuration, as shown in FIG. 15B, when the irradiation direction is set to a direction orthogonal to the side frame 22, the main body 10 a does not protrude from the front side of the side frame 22. Therefore, when the projector 1d falls from the front side onto a flat surface such as the ground, the frame portion 20 is first subjected to an impact rather than the main body portion 10a, so that the impact does not directly act on the main body portion 10a (battery pack 15). The projector 1d having higher durability can be provided. Even when the main body portion 10a protrudes from the front side of the side frame 22, the main body portion 10a rotates around the rotation shaft 19a, and the protruding portion is retracted into the side frame 22. Impact can be reduced.

As described above, according to the present embodiment, the conversion unit (LED2) that converts electric power into light, wind, heat, or sound, and the light, wind, heat, or sound output from the conversion unit. An electric device (light projector 1) including a main body unit 10 having an output unit (transparent plate 12) that outputs any one to the outside and a frame unit 20 that rotatably supports the main body unit 10. The frame portion 20 is provided with a first grounding surface (a grounding surface defined by the pair of bottom frames 24) that can come into contact with the ground, and an output portion (transparent) from the front with respect to the first grounding surface. A plate 12) is arranged, and a claw portion 26 is provided from the rear with respect to the first ground plane.
With this configuration, the output direction can be fixed simply by hooking the claw portion 26 onto the single pipe 40. That is, it is possible to output light, wind, heat, or sound forward by installing an electric device so that the first ground contact surface is in contact with the ground, and the claw portion 26 is a single pipe pipe on the operator's head, etc. By installing the electric device by hooking it on the light, it is possible to fix the output direction and output light, wind, heat or sound downward.

Furthermore, according to the present embodiment, the frame portion 20 is provided with the support mechanism portion 21 that rotatably supports the main body portion 10, and the output portion (transparent plate 12) is connected to the support mechanism portion 21. On the other hand, the battery pack 15 is disposed on the front side, and the battery pack 15 is attached to the main body portion 10 behind the support mechanism portion 21.
With this configuration, the position of the combined center of gravity obtained by combining the center of gravity of the main body 10 and the center of gravity of the battery pack 15 is positioned near the support mechanism 21. When the main body unit 10 and the battery pack 15 are rotated with respect to the frame unit 20, the movement of the combined center of gravity of the entire electric device (light projector 1) can be suppressed small. Therefore, even if the main body 10 and the battery pack 15 are rotated with respect to the frame part 20 in a state where the claw part 26 is hooked on the single pipe pipe 40, the hook between the claw part 26 and the single pipe pipe 40 is difficult to come off.

Further, according to the present embodiment, the frame portion 20 is provided with the claw portion 26,
In a state where the claw part 26 is hooked on the single pipe 40, both the battery pack 15 and the single pipe 40 are configured to be located inside the guard region covered with the outer periphery of the frame part 20.
With this configuration, the output direction can be fixed simply by hooking the claw portion 26 on the single pipe 40, and the guard region for protecting the battery pack 15 is also used as a space for hooking the single pipe 40. And space saving can be realized.

Further, according to the present embodiment, the main body portion 10 is connected to the frame portion 10 so as to be rotatable about the rotation shaft 19 extending in the left-right direction of the main body portion 10, and is attached to the frame portion. The claw portion 26 is provided, and the claw portion 26 is configured to be movable in the left-right direction with respect to the single tube pipe 40 in a state where the claw portion 26 is hooked on the single tube pipe 40.
With this configuration, the output direction can be fixed simply by hooking the claw portion 26 onto the single pipe pipe 40, and light can be obtained by rotating the main body portion 40 with the claw portion 26 hooked on the single pipe pipe 40. The direction in which wind, heat or sound is output can be moved up and down. Moreover, the direction in which light, a wind, a heat | fever, or a sound is output can be moved to the left-right direction by moving the nail | claw part 26 to the left-right with respect to the single pipe | tube pipe 40. FIG. When working on the outer wall of a building, a single pipe pipe 40 is assembled along the outer wall to make a scaffold. However, in the case of an electric device (projector 1) configured in this way, a single pipe is used. The direction in which light, wind, heat or sound is output can be moved up and down and left and right along the outer wall while the electric device is hooked on 40, which is convenient for operations such as painting and repairing the outer wall.

In addition, according to the present embodiment, the frame unit 20 includes the main body 10 having an irradiation surface of the light emitted from the built-in LED 2 on the front side, and the frame 20 that guards the main body 10. A claw portion 26 having a recess 26a extending in a direction substantially orthogonal to the irradiation direction is provided on the surface facing the main body portion 10.
With this configuration, simply by hooking the claw portion 26 serving as a hook onto the single pipe pipe 40, the concave portion 26a abuts on the single pipe pipe 40, and the irradiation direction is fixed in a direction intersecting with the single pipe pipe.

Furthermore, according to the present embodiment, the support mechanism portion 21 that rotatably supports the main body portion 10 by the rotation shaft 19 that is substantially parallel to the formation direction of the recess 26a is provided.
With this configuration, the irradiation direction can be moved in a state of being suspended from the single pipe 40.

Furthermore, according to the present embodiment, the recess 26a is formed of a partially cylindrical curved surface whose axial direction is substantially orthogonal to the irradiation direction.
With this configuration, the claw portion 26 can be easily hooked on the single pipe 40.

Furthermore, according to the present embodiment, the concave portion 26a is formed of a partially cylindrical curved surface whose axial direction is substantially orthogonal to the irradiation direction, and when the radius of curvature of the concave portion 26a is R, the claw portion 26 has the main body portion 10. Is disposed at a position at least 2R away from the rotation region.
With this configuration, even if the irradiation direction is moved by the rotation of the main body 10 in a state suspended from the single pipe 40, the main body 10 does not contact the single pipe 40, so that the irradiation direction can be varied over a wide range. Can be moved.

Further, according to the present embodiment, the main body 10 includes a housing 11 having an irradiation surface of light emitted from the built-in LED 2 on the front surface side, and a battery pack 15 mounted on the rear surface side of the housing 11. Thus, the rotation shaft 19 is provided between the housing 11 and the battery pack 15.
With this configuration, even if the irradiation direction is moved by the rotation of the main body portion 10, the center of gravity moves little, and the single pipe 40 can be stably suspended.

Moreover, according to this Embodiment, the main body part 10 which has the irradiation surface of the light light-emitted by built-in LED in the front side, a pair of side frame 22 which guards the side surface of the main body part 10, and a pair of side A pair of bottom frames 24 that extend rearward from the lower end of the frame 22 and serve as legs, a top frame 23 that connects the pair of side frames 22, a connection frame 25 that connects the pair of bottom frames 24, and the connection And hooks (claw portion 26, hook 27) provided on the frame.
With this configuration, the hook (claw part 26, hook 27) is provided on the connection frame 25 different from the top frame 23 functioning as a handle, so that the hook (claw part 26, hook 27) does not interfere with carrying. .

The present invention has been described based on the embodiments. This embodiment is an exemplification, and it will be understood by those skilled in the art that various modifications can be made to combinations of these components and the like, and such modifications are within the scope of the present invention.
For example, the present invention can be applied to an electric device that converts electric power into light, wind, heat, or sound and outputs the converted electric power to the outside.
Electric devices that convert electric power into light and output it are not limited to the projectors 1, 1 a, 1 b, 1 c, and 1 d, but output liquid crystal as a conversion unit that converts electric power into light and output the converted light to the outside. By using a liquid crystal panel as the output unit, it can be applied to a video playback device such as a TV / DVD player.
As an electric device that converts electric power into wind and outputs it, a fan is used as a conversion unit that converts electric power into wind, and a fan guard net is used as an output unit that outputs converted wind to the outside. Applicable to blowers such as coolers.
As an electrical device that converts electric power into heat and outputs it, a heat converter is used as a conversion unit that converts electric power into heat, and a guard network of the heat converter is used as an output unit that outputs the converted heat to the outside. Therefore, it can be applied to heat converters such as heaters and coolers.
As an electric device that converts electric power into heat and outputs it, a speaker is used as a conversion unit that converts electric power into sound, and a dust-proof net of the speaker is used as an output unit that outputs converted sound to the outside. Applicable to sound equipment such as loudspeakers and radios.

1, 1a, 1b, 1c, 1d Floodlight 2 LED
3 Tripod hole 10, 10a Body portion 20, 20a, 20b, 20c Frame portion 11 Housing 12 Transparent plate 13, 13a Cover member 14 Battery holding portion 15 Battery pack 16 Switch 17 Printed circuit board 18 Spacer 19, 19a Rotating shaft 21, 21a Support mechanism part 22, 22a Side frame 23, 23a Top frame 24 Bottom frame 25, 25a, 25b Connection frame 251 Storage groove 26 Claw part 26a Recess 27 Hook 28, 29, 28a, 29b, 29c Elastic member 30 Washer 31 Tapping screw 32 Nut 33 Machine screw 40 Single pipe pipe 131 Edge 132 Bumper

Claims (11)

A main unit having a conversion unit that converts electric power into light, wind, heat, or sound; and an output unit that outputs any of light, wind, heat, or sound output from the conversion unit;
A frame unit that rotatably supports the main body unit,
The frame portion is provided with a first grounding surface that can contact the ground,
The electrical apparatus, wherein the output unit is disposed from the front side with respect to the first grounding surface, and a hook-like hook is provided from the rear side with respect to the first grounding surface. The frame portion is provided with a support mechanism portion that rotatably supports the main body portion,
The output unit is disposed in front of the support mechanism unit,
The electric device according to claim 1, wherein a battery pack that supplies electric power to the conversion unit is attached to the main body unit behind the support mechanism unit. A main unit having a conversion unit that converts electric power into light, wind, heat, or sound; and an output unit that outputs any of light, wind, heat, or sound output from the conversion unit;
A frame unit that rotatably supports the main body unit,
The frame portion is provided with hook-like hooks,
In a state where the hook is hooked on the single pipe, both the battery pack for supplying power to the converter and the single pipe are configured to be located inside the guard region covered with the outer periphery of the frame portion. Electrical equipment characterized by that. A main unit having a conversion unit that converts electric power into light, wind, heat, or sound; and an output unit that outputs any of light, wind, heat, or sound output from the conversion unit;
A frame unit that rotatably supports the main body unit,
The main body is pivotally connected to the frame with a pivot shaft extending in the left-right direction of the main body as a fulcrum,
The frame portion is provided with hook-like hooks,
An electrical apparatus configured to be movable in the left-right direction with respect to the single pipe pipe in a state where the hook is hooked on the single pipe pipe. A main body having an irradiation surface of light emitted from the built-in light source on the front side;
A frame portion that guards the main body portion;
The light projector according to claim 1, wherein a claw portion having a recess extending in a direction substantially orthogonal to an irradiation direction is provided on a surface of the frame portion facing the main body portion.   The projector according to claim 5, further comprising a support mechanism that rotatably supports the main body by a rotation shaft that is substantially parallel to a direction in which the recess is formed.   The projector according to claim 5 or 6, wherein the concave portion is formed of a partially cylindrical curved surface whose axial direction is substantially orthogonal to the irradiation direction. The concave portion is composed of a partially cylindrical curved surface whose axial direction is substantially orthogonal to the irradiation direction,
If the radius of curvature of the recess is R,
The projector according to claim 6, wherein the claw portion is arranged at a position separated from the main body portion by at least 2R with respect to the rotation region. The main body includes a housing having an irradiation surface of light emitted from a built-in light source on the front side, and a battery mounted on the rear side of the housing,
The projector according to claim 6, wherein the rotation shaft is provided between the housing and the battery. The frame portion includes a pair of side frames that guard the side surfaces of the main body portion;
A pair of bottom frames extending rearward from the lower ends of the pair of side frames and serving as legs;
A top frame connecting the pair of side frames;
A connection frame connecting the pair of bottom frames,
The projector according to claim 5, wherein the claw portion is provided on the connection frame. A main body having an irradiation surface of light emitted from the built-in light source on the front side;
A pair of side frames that guard the sides of the main body;
A pair of bottom frames extending rearward from the lower ends of the pair of side frames and serving as legs;
A top frame connecting the pair of side frames;
A connection frame connecting the pair of bottom frames;
And a hook provided on the connection frame.

Images