RU2153624C1 - Floodlight (design versions) and its reflector manufacturing process - Google Patents

Abstract

FIELD: stationary electric lighting devices. SUBSTANCE: irrespective of design version, floodlight has main-reflector shaping and heat transfer device and auxiliary holes in side walls of its casing. Design versions differ in cooling device, lamp holding device or holding and vibration-preventing device, as well as in mechanical design of floodlight turning gear. Reflector manufacturing process includes dividing flat blank of reflector into parts to produce main and side reflectors. Main part of reflector is bent when inserted in floodlight casing over special tool that functions later on for heat transfer from main part of reflector. EFFECT: reduced power requirement for manufacture, improved heat transfer, facilitated maintenance. 12 cl, 8 dwg

Description

 The invention relates to portable electric lighting devices and can be used in a floodlight.

 Known floodlight used to illuminate open spaces, comprising a casing on which a hinge assembly on the base and glass are placed, and inside a main reflector with a profile formed by rectilinear movement of a second-order curve or a broken line, and side reflectors with a lamp unit and a unit heat removal to the casing (see, for example, USSR author's certificate N 165990 for 1963, F 21 M 1/00). The well-known technical solution contributed to the use of high-pressure lamps in floodlights, which reduced energy costs during operation.

 But for a well-known searchlight, energy costs in manufacturing are high, and the heat removal unit on the casing becomes ineffective for cases of using high-power cylindrical halogen lamps (more than 2000 W).

 Known floodlight containing a control cabinet, a starting device, a casing on which the hinge assembly is located on the base and glass, and inside the main reflector with a profile formed by rectilinear movement of the second-order curve or polyline, and side reflectors with an opening of at least in one side reflector and a housing for the lamp unit (see, for example, the Catalog of modern general-purpose luminaires for indoor and outdoor lighting. Section 9, sheets 8-12, TWINFLOOD floodlight. TH firms ORN, Second Edition, St. Petersburg, 192236, Sofiyskaya St., 14, office 803).

 The disadvantages of a well-known searchlight are almost the same. Energy costs are high during manufacturing (a reflector is formed before the projector is assembled), and heat transfer becomes a brake for cases of using halogen lamps with a power of more than 2000 W. In addition, preventive maintenance of the projector is difficult, it is very difficult to penetrate the reflector and the glass.

 A known method of manufacturing a reflector spotlight, in which a flat billet of the reflector is turned into a part of complex shape (see, for example, Romanovsky VP Handbook of cold stamping. Engineering, 1965, S. 227, Fig. 157). The known method is inherent in the above disadvantage of high energy costs in the manufacture.

 The objective of the present invention is to reduce energy costs in the manufacture and operation of a searchlight, increase its heat transfer and improve the conditions for preventive care. An additional task is to increase reliability during operation in conditions of severe vibration.

The problem is solved in that in the known floodlight containing a control cabinet, a starting device, a casing on which a hinge assembly on the base and glass are placed, and inside the main reflector with a profile formed by rectilinear movement of a second-order curve or a broken line, and side reflectors with a hole in at least one side reflector and a housing for the lamp unit, according to the invention, the searchlight is equipped with a device for profiling the main reflector and heat dissipation on a casing located under the side reflectors on the side walls of the casing, and technological holes are made in the casing and side reflector concentrically present in the indicated elements for the lamp unit and exceed their diametrical size 1.1-1.3 times, while the casing hinge assembly based on the ability to change the direction of the searchlight by an angle of up to 60 ^o and placed under the searchlight.

 It is economical if the device for profiling the main reflector and heat removal to the casing is made in the form of plates bent along a given profile of the main reflector, for example, a parabola mounted mutually perpendicular to the side walls of the casing and the outer surface of the main reflector and interacting with them.

 Practically, if the hinge assembly of the casing on the base is made in the form of two pairs of eyes connected by bolts and nuts.

In another embodiment of the searchlight, the task is solved by the fact that in the known floodlight containing a control cabinet, a starting device, a casing on which the hinge assembly on the base and glass are placed, and inside the main reflector with a profile formed by a linear movement of the second-order curve or broken line, and side reflectors with a hole in at least one side reflector and a housing for the lamp unit, according to the invention, the searchlight is equipped with a profiling device the main reflector and heat dissipation to the casing located under the side reflectors on the side walls of the casing, made open from the lower and back sides, a cooling device located under the upper wall of the casing, and a device for changing the direction of the searchlight by an angle of up to 90 ^o , the starting device is placed on the lamp a node equipped with a holding device, technological holes are made in the casing and side reflector concentrically present in the indicated elements under the lamp unit and exceeding their diametrical size at 1.1-1.3 times, the device changes direction floodlight at an angle of 90 ^o taken under the spotlight.

 It is economical if the cooling device is made in the form of a channel formed by the upper wall of the casing and the corresponding part of the outer surface of the reflectors connecting two holes made in the upper and back walls of the casing, while one hole is formed by a labyrinth and the other by the missing part of the rear wall of the casing.

 It is economical if the device for profiling the main reflector is made in the form of plates curved along a given profile of the main reflector, for example, a parabola mounted mutually perpendicular to the side walls of the casing and the outer surface of the main reflector interacting with them.

 Practically, if the hinge assembly of the casing on the base is made in the form of a flat frame with holes for mounting bolts, on which are placed the eyes connected by bolts to nuts.

Effectively, if the device changes the direction of the searchlight by an angle of up to 90 ^{o is} made in the form of a guide, one end fixed on the base with the possibility of rotation in a plane parallel to the side wall of the casing, and the other end fixed on the bevel of the side wall of the casing with the possibility of longitudinal movement of this mounting point along guide and locking screw, while on the guide are made recesses for the locking screw, placed evenly.

 Reliably, if the holding device is made in the form of two racks located on the side wall of the casing opposite the lamp unit, on which is placed a plate spring-loaded to them and the open end of the lamp unit.

 In another embodiment of the searchlight, the additional task is solved by the fact that in the known floodlight containing a control cabinet, a starting device, a casing on which the hinge assembly on the base and glass are located, and inside the main reflector with a profile formed by the rectilinear movement of the second curve order or a broken line, and side reflectors with a hole in at least one side reflector and a housing for the lamp unit, according to the invention, the searchlight is equipped with a device profiling of the main reflector and heat removal to the casing located under the side reflectors on the side walls of the casing, made open from the lower and back sides, the cooling device located under the upper wall of the casing, the starting device is located on the lamp unit equipped with a holding-anti-vibration device, in the casing and the side reflector made technological holes concentrically available in these elements under the lamp unit, exceeding their diametrical size by 1.1-1.3 times, while the hinge unit The mounting of the casing on the base is made in the form of two pairs of eyes connected by bolts and nuts, and placed under the spotlight.

 Reliably, if the holding-anti-vibration device is made in the form of two pairs of racks located on the side walls of the casing and two tension nodes, each of which is made in the form of concentric rings, one of which is stationary on the racks, and the other is spring-loaded to it using compression springs and interacts accordingly with the end of the lamp unit, while the springs create a force directed to the geometric center of the lamp unit.

 This problem is also solved by the fact that in the known method of manufacturing a reflector of a searchlight, in which the flat billet of the reflector is turned into a part of complex shape, according to the invention, the flat billet of the reflector is divided into the main and side parts and bend the main part at the time of installation in the casing by the profiling device, pre-mounted on the side walls of the casing, and then the side parts of the reflector are attached.

 The analysis of the prior art by the applicant, including the search for information on patent and scientific and technical sources, made it possible to establish that there are no analogues of the claimed devices and method that are identical to all their essential features.

 Therefore, the claimed variants of the floodlight and the method of manufacturing its reflector meet the criterion of "novelty" of the current patent law.

 To verify compliance with the requirement of the criterion of "inventive step", the applicant conducted an additional search for technical solutions in order to identify signs that match the distinctive ones from the selected prototypes.

 It is established that the claimed object does not explicitly follow from the prior art. Therefore, the object of protection meets the criterion of "inventive step".

 The invention is illustrated by drawings.

 In FIG. 1 is a front view of an embodiment of a floodlight with two lamp units. In FIG. 2 is a view along arrow A in FIG. 1. In FIG. 3 shows a section BB in FIG. 2 - connection of the main, side reflectors, profiling device of the main reflector and heat removal to the casing with the casing. In FIG. 4 is a front view of an embodiment of a floodlight with a 2000 W cylindrical halogen lamp. FIG. 5 shows a view along arrow A in FIG. 4. In FIG. 6 shows a section BB in FIG. 5. In FIG. 7 is a front view of an embodiment of a floodlight with a lamp power of 2000 W or more, which is mounted using a holding-anti-vibration device. In FIG. 8 shows a part of a holding-damping device consisting of two symmetrical tension units located on racks.

 The proposed spotlight is made as follows. The bearing element is a casing 1, located on the base 2 and secured with a hinge assembly made in the form of two pairs of eyes 3 and not shown in the drawing bolts and nuts. The base is made in the form of a flat frame with holes for mounting bolts (shown conditionally). Glass 4 is placed on the casing, which is not recommended to be removed in the proposed variants. Inside the casing is placed the main reflector 5, made in the form of a profile formed by the rectilinear movement of the second-order curve or broken line. Side reflectors 6 mounted obliquely are connected to the main reflector from the sides. In the casing and the side reflector (may be on each side), holes 7 are made for the lamp unit 8, including the lamp 9, holder 10, cap 11.

The holder is connected to the cap, which in turn is removable. It is attached (not shown in the drawings) using pins with a head and a figured groove with an extension under the pin head. To remove the lamp unit, it is rotated until the pin heads align with the widened part of the grooves and the unit is removed from the spotlight. The searchlight is necessarily equipped with a control cabinet (not shown in the drawings) and a starting device 12 placed depending on the version on the lamp unit or on the outer rear wall of the casing (Fig. 2) taking into account the requirements for the dimensions of the searchlight. As indicated, in the casing and side reflector, technological holes are made for the lamp unit. In the proposed versions of the searchlight, taking into account the design features, the aforementioned holes are made 1.1-1.3 times larger than the maximum diameter of the lamp unit. Additionally, these holes serve for preventive maintenance inside the enclosed volume of the working area of the spotlight. These holes are covered either with a cap or flat cover 13 and are mounted on the casing with screws. Heat-resistant gaskets (not shown) are placed under these elements. Each embodiment of the searchlight is equipped with a device 14 for profiling the main reflector and heat removal to the casing, located under the side reflectors on the side walls of the casing. It is made in the form of plates interacting with the outer surface of the reflector and the side walls of the casing (in the form of a corner). The plates interacting with the main reflector and the side walls of the casing are bent along a predetermined profile, for example, a parabola. The plates are mutually perpendicular mounted on the side wall of the casing and the reflector. The space between the main reflector, the casing and the device for profiling the main reflector and heat removal to the casing is filled with sealant 15. The hinge assembly of the casing on the base and the device for changing the direction of the searchlight are configured to change the direction of the searchlight by an angle of up to 60 ^o (Fig. 2) and up to 90 ^o (Fig. 5) and placed under the spotlight (for simplicity, the base is turned). In the first case, the installation of a given angle of inclination is carried out by bolts installed in the eyes before fixing the base. If the embodiment of the searchlight is equipped with a lamp 2000 W or more, the searchlight is equipped with a cooling device (Fig. 5) located under the upper wall of the casing 1, while the casing is open from the bottom and back, and the side walls are connected by ties 16 (4 pcs. Shown conditionally). The cooling device is made in the form of a channel 17 between the upper wall of the casing 1 and the corresponding part of the outer surface of the reflectors connecting the holes 18 and 19. One hole is formed by a labyrinth from the visor of the wall of the casing 1 and the tray 20, and the second hole is formed by the missing part of the back wall of the casing. The labyrinth is necessary to prevent the penetration of precipitation into the cooling device when the casing is upright. When the casing is tilted forward, the draft in the cooling device is reversed and resists the ingress of precipitation and dust (confirmed by experiment).

For the embodiment of the searchlight, the weight of which exceeds 50 kg, a device providing a change in the direction of the searchlight by an angle of up to 90 ^o in the form of an eye is not enough even when using locking devices. Such a searchlight uses a device for changing the direction of the searchlight, made in the form of a guide 21, pivotally mounted on the hinge assembly 22 of the casing on the base (under the casing) with the possibility of rotation in a plane parallel to the side wall of the casing, and the other end of the casing side wall fixed to the bevel with the possibility of longitudinal movement of this attachment point along the guide and the locking screw 23. On the guide are made recesses 24 for the locking screw, placed evenly.

 For the searchlight option for light sources of 2000 W or more, when placing the starting device on the lamp unit, a holding device made in the form of two posts 25 located on the side wall of the casing (flat cover) from the side opposite the lamp unit should be used. On the racks there are compression springs 26 and a plate 27 interacting with the open end of the lamp unit. The working space of the spotlight is sealed (in the drawings this is not shown for all connections).

 For a variant of a searchlight with a powerful light source, the operation of which is provided in conditions of severe vibration, when the working elements of the lamps can not withstand and are destroyed by overloads, for example, a holding-anti-vibration device is provided on the arrows of large excavators. It is made in the form of two pairs of racks 28 located on the side walls of the casing (one pair on a flat cover and the other on the cap of the lamp unit). On each pair of racks there is one tension unit, each of which is made in the form of concentric rings, one of them 29 is stationary on the racks, and the other 30 is spring-loaded to it using compression springs 31 and interact respectively with the end of the lamp unit (any), in this case, the springs create a force directed to the geometric center of the lamp unit (in Fig. 7, gc is indicated). Racks are fixed with nuts 32.

 In general terms, the proposed method of manufacturing a reflector is as follows. A flat reflector blank of polished aluminum or steel is divided into parts representing the main and side reflectors. On the side walls of the casing of the spotlight, a profiling and heat extraction device is installed. Then the main part of the reflector is installed in the casing at the same time, bending it along the profile of the profiling device, and then the side parts of the reflector are attached, obtaining a part of complex shape. The quality of the reflector assembled in this way is comparable to the processed stamping method, but the energy costs are not comparable. According to the external signs of the collected searchlight, the applicant can control the use of the proposed method.

The installation of glass and the sealing of the working volume of the searchlight are added to the general operations of the proposed method. The work of the spotlight is provided by a set of the listed equipment (control cabinet, etc.). Prevention of the lamp unit, glass and reflector is carried out at the installation site of the searchlight through technological holes 7, the size of which is determined experimentally. Changing the direction of the searchlight is possible by unfastening the bolts on the eyes, turning the casing to the required angle of up to 60 ^o and securing the bolts. For a spotlight weighing up to 30 kg it is reliable. For projectors of larger dimensions, in addition to securing the bolts to the eyes, the locking screw 23 is unfastened on the guide 21, the grip under the upper wall of the casing and the guide casing is rotated to the required angle within 90 ^o and the fasteners are tightened.

 For high-power light sources, a cooling device is provided in combination with the open back of the casing. It acts as a ventilation duct for the airflow heated by the reflector. In addition to the cooling device, a profiling device for the main reflector is used when it is installed in the casing and serves as a device for taking heat from the reflector. This increases the life of the lamps.

 For the same powerful sources with their significant dimensions, the use of supporting devices is simply necessary in conditions of significant heating of the light sources themselves. For projectors operating under vibration conditions, the “suspension” scheme of their lamps is exceptionally reliable and simple.

 Thus, the above information about the claimed inventions, characterized in the independent claims, indicate the possibility of their implementation using the described in the application and known means and methods. Therefore, the claimed device and method of manufacturing a reflector meet the condition of industrial applicability of the invention.

Claims (12)

1. Floodlight containing a control cabinet, a starting device, a casing on which the hinge assembly on the base and glass are placed, and inside there is a main reflector with a profile formed by rectilinear movement of a second-order curve or a broken line, and side reflectors with an aperture in at least one side reflector and a casing for the lamp unit, characterized in that the searchlight is equipped with a device for profiling the main reflector and heat removal to the casing located under the side reflectors and on the side walls of the casing, in the casing and the side reflector, technological holes are made concentrically available in the indicated elements for the lamp unit and exceed their diametrical size by 1.1 - 1.3 times, while the hinge assembly of the casing on the base is configured to change the direction of the searchlight at an angle of up to 60 ^o and is placed under the spotlight.  2. The searchlight according to claim 1, characterized in that the device for profiling the main reflector and heat removal to the casing is made in the form of plates curved along a given profile of the main reflector, for example, a parabola mounted mutually perpendicular to the side walls of the casing and the outer surface of the main reflector and interacting with them.  3. The searchlight according to claim 1, characterized in that the hinge assembly of the casing on the base is made in the form of two pairs of eyes connected by bolts and nuts. 4. Floodlight floodlight comprising a control cabinet, a starting device, a casing on which the hinge assembly on the base and glass are placed, and inside there is a main reflector with a profile formed by rectilinear movement of a second-order curve or a broken line, and side reflectors with an aperture, in at least one side reflector and a casing for the lamp unit, characterized in that the searchlight is equipped with a device for profiling the main reflector and heat removal to the casing located under the side reflectors and on the side walls of the casing made open from the lower and back sides, the cooling device located under the upper wall of the casing and the device for changing the direction of the searchlight by an angle of up to 90 ^o , the starting device is placed on the lamp unit equipped with a holding device, in the casing and side reflector technological holes concentrically available in the indicated elements for the lamp unit and exceeding their diametrical size by 1.1 - 1.3 times, while the device changes the direction of the searchlight by an angle of up to 90 ^o .  5. The searchlight according to claim 4, characterized in that the cooling device is made in the form of a channel formed by the upper wall of the casing and the corresponding part of the disturbed surface of the reflectors connecting the two holes made in the upper and back walls of the casing, while one hole is formed by a maze, and the other is the missing part of the back wall of the casing.  6. The searchlight according to claim 4, characterized in that the main reflector profiling device is made in the form of plates bent along a given profile of the main reflector, for example, a parabola mounted mutually perpendicular to the side walls of the casing and the outer surface of the main reflector interacting with them.  7. The searchlight according to claim 4, characterized in that the hinge assembly of the casing on the base is made in the form of a flat frame with holes for mounting bolts, on which the eyes are connected, bolted to nuts. 8. The searchlight according to claim 4 or 7, characterized in that the device for changing the direction of the searchlight by an angle of up to 90 ^{o is} made in the form of a guide, one end fixed to the base with the possibility of rotation in a plane parallel to the side wall of the casing, and the other end mounted on a bevel the side wall of the casing with the possibility of longitudinal movement of this attachment point along the guide and the locking screw, while on the guide there are grooves for the locking screw, placed evenly.  9. The searchlight according to claim 4, characterized in that the holding device is made in the form of two racks located on the side wall of the casing opposite the lamp unit, on which is placed a plate spring-loaded to them and to the open end of the lamp unit.  10. A floodlight containing a control cabinet, a starting device, a casing on which a hinge assembly on the base and glass are placed, and inside there is a main reflector with a profile formed by rectilinear movement of a second-order curve or a broken line, and side reflectors with an aperture, in at least one side reflector and a casing for the lamp unit, characterized in that the searchlight is equipped with a device for profiling the main reflector and heat removal to the casing located under the side reflectors and on the side walls of the casing made open from the lower and back sides, the cooling device located under the upper wall of the casing, the starting device is placed on the lamp unit equipped with a holding-anti-vibration device, technological holes are made concentrically available in the indicated elements under the lamp in the casing and side reflector the node and their diametrical size exceeding 1.1 - 1.3 times, while the node of the hinged mounting of the casing on the base is made in the form of two pairs of eyes connected by bolts and nuts And placed under the spotlight.  11. The searchlight according to claim 10, characterized in that the holding-anti-vibration device is made in the form of two pairs of racks located on the side walls of the casing, and two tension nodes, each of them is made in the form of concentric rings, one of them is stationary on the racks and the other is spring-loaded to it using compression springs and interacts accordingly with the end of the lamp unit, while the springs create a force directed to the geometric center of the lamp unit.  12. A method of manufacturing a reflector of a searchlight, in which the flat billet of the reflector is turned into a part of complex shape, characterized in that the flat billet is divided into the main and side parts and bend the main part, while installing it in the casing by a profiling device mounted previously on the side walls of the casing and then attach the side portions of the reflector.

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