RU154181U1 - SPOTLIGHT - Google Patents

Abstract

1. A searchlight, characterized in that it contains a base mounted on the base of the support, a housing connected to the support, provided with at least one LED light source, which is connected by an electric wire to a current source, as well as a cooling system of the light source, including a cooling radiator a light source equipped with a board on which the light source is fixed, and having a cavity for the coolant, and also connected to the radiator through a flexible pump and outlet tube of the hydraulic pump. 2. Searchlight according to claim 1, characterized in that the cooling system comprises an expansion tank. 3. The searchlight according to claim 1, characterized in that the supply and outlet pipes of the cooling system are connected to the radiator by means of fittings. 4. Searchlight according to claim 1, characterized in that the supply and discharge tubes are located in a heat-insulating jacket. The searchlight according to claim 1, characterized in that the supply and discharge tubes have a spiral shape. The searchlight according to claim 1, characterized in that the electrical wire has a spiral shape. Searchlight according to claim 1, characterized in that the support is made tubular. 8. Searchlight according to claim 1, characterized in that the support is made in the form of a profile with open channels for tubes and electric wire. The searchlight according to claim 1, characterized in that it has a removable part equipped with a handle, the lower part of which is inserted into the support. Searchlight according to claim 1, characterized in that the support is mounted on a detachable base. 11. Searchlight, characterized in that it is equipped with an additional heat sink radiator in communication with the supply pipe, the discharge pipe and the hydraulic pump. 12. Searchlight according to claim 11, characterized in that

Description

This technical solution relates to LED lighting systems that work in conditions of excessive heating and require cooling.

A lighting device is known, comprising a housing, a removable cover with a diffuser, LEDs on the board, a power device, characterized in that it is additionally equipped with a radiator, rigidly fixed to the housing of the lighting device, and a board with LEDs connected and rigidly mounted on the base surface of the radiator to the power device. The known device is intended for lighting industrial, warehouse and other premises for various purposes, as well as in transport for auxiliary rooms and vestibules of railway cars, where a high degree of illumination is not required (RU 77024 U1, publ. 10.10.2008).

The use of such devices does not provide a sufficient degree of illumination of large areas during various types of work associated with increased danger (liquidation of accidents, consequences of disasters, etc.), which require a much higher level of illumination.

An increase in the quantity and power of LED light sources will inevitably lead to the need to increase the heat sink surface of the radiator and, as a result, to increase its size and mass. A heavy-duty LED floodlight is known, characterized in that it is open-frame and contains a rectangular, round or ellipsoidal frame, in the opening of which a light-emitting matrix with a cooling radiator is installed, and the light-emitting matrix contains white-emitting light elements covered with aspherical lenses. The results of electrical tests of a prototype of this searchlight showed that its luminous flux is 15000 lm, and the weight of the searchlight is 17 kg, even though it is made unpacked (RU 144224 U1, publ. 10.08.2014).

The use of a volumetric and massive radiator negatively affects the operational characteristics of the searchlight, as it leads to an increase in its total weight, and also complicates its transportation and installation. Another significant drawback of the known searchlight is its low mobility and the inability to readjust for manual operation in order to concentrate light in hard-to-reach places.

From foreign patent documentation, a light-emitting device is known comprising a light module device located on a bearing surface and intended to emit light. The fixture of the light module is closed by a lid with the formation of a cavity between them. The coolant is supplied to the cavity so that the light-emitting surface of the fixture of the light module is in contact with the coolant. The specified cavity is an integral part of the closed cooling circle, through which the coolant circulates (DE 102011083698 A, 04/04/2013).

Such a device does not have sufficient reliability, since the light-emitting surface of the light module is in contact with the coolant. In case of loss of surface tightness, the coolant will come into contact with energized light sources, which will inevitably lead to breakage.

The technical result of the searchlight presented in this description is to increase its reliability and ease of use.

The technical result is obtained by a searchlight containing a base mounted on a support, a housing connected to the support, equipped with at least one LED light source, which is connected by an electric wire to a current source, and a light source cooling system including a light source cooling radiator equipped with a board, on which a light source is fixed, and having a cavity for the coolant, as well as a hydraulic pump connected to the radiator through flexible supply and outlet tubes.

In certain embodiments, the cooling system comprises an expansion tank; the supply and outlet pipes of the cooling system are connected to the radiator by means of fittings; the supply and outlet tubes are located in a heat-insulating jacket; the supply and outlet tubes have a spiral shape; the electrical wire has a spiral shape; the support is made tubular or in the form of a profile with open channels for tubes and electric wires. The searchlight may have a removable part equipped with a handle, the lower part of which is inserted into the support; the support can be mounted on a detachable base; the searchlight can be equipped with an additional heat sink radiator in communication with the feed pipe, the discharge pipe and the hydraulic pump, while an additional radiator is installed before or after the hydraulic pump.

In FIG. 1 shows one of the options for the implementation of the searchlight, made in accordance with this technical solution (scheme of the searchlight);

in FIG. 2 - removable part of the searchlight.

The floodlight described below is one example of the implementation of this utility model. The searchlight contains a base 1 (Fig. 1), a power unit 2 installed in it, a hydraulic pump 3 and an expansion tank 4 connected with it. The searchlight contains an LED light source 5 (Fig. 2) mounted on a board 6, which is part of the board cooling radiator 7 and 5 light source. Radiator 7 is a container filled with coolant and communicated through fittings 8 and 9 with a supply pipe 10 and a discharge pipe 11, which are made of flexible, elastic and heat-resistant material. The fitting 8 is connected to a discharge pipe 11, which is in communication with the tank 4. The supply pipe 10 is in communication with a hydraulic pump 3 and a radiator 7.

Each tube has a spiral shape, each spiral of the tube is located in the tubular support 12, which is located on the base 1. The tubular support 12 is fixed on the base 1 with the possibility of folding in transport position. In the tubular support 12, a removable part 13 of the searchlight is movably located, including a lower tubular part 14 inserted into the tubular support 12 and a handle 15 connected to the housing 16 of the searchlight. In another design (not shown), the support 12 and the lower part 14 of the searchlight have a different cross-sectional shape different from the tubular shape. In another design, they are made in the form of profiles with open channels for tubes and electric wires.

In one working position, the removable part 13 of the searchlight is fixed in the tubular support 12, in another position - in the working or transport - the removable part 13 of the searchlight is removed from the tubular support 12.

The radiator 7 and the board 6 are located in the housing 16 of the removable part 13 of the searchlight. At least one outer surface of the radiator 7 facing the outside is (conditionally shown) one light source 5. The cooling liquid in the radiator 7 is located in its cooling cavity 17. The above-mentioned pipes, hydraulic pump and tank are filled with cooling liquid. The supply tube 10 is located in a heat-insulating jacket in order to prevent it from heating from the surrounding space and to heat the coolant moving in the tube 10 after cooling it in the radiator 7. The light source 5 is connected by a spiral wire 18 to the current source of the power unit 2. The spiral of the electric wire is located in the cavity of the tubular support 12 and partially in the tubular cavity of the lower part 14 of the searchlight.

In one of the versions of the searchlight, an additional radiator 19 is installed at its base 1 (Fig. 1), which is in communication with the supply pipe 10, the discharge pipe 11 and the hydraulic pump 3, the additional radiator 19 installed in front of or after the hydraulic pump 3.

The searchlight works as follows. The LED light source 5 and the hydraulic pump 3 are simultaneously turned on. When the light source 5 is working, the board 6 is heated and heat is removed from the board 6 by the coolant, which is pumped by the hydraulic pump 3 along the cooling circuit: hydraulic pump 3 - tube 10 - radiator cavity 17 - tube 11 - expansion tank 4 - hydraulic pump 3.

When the searchlight is working, the light from the source 5 in concentrated form is supplied to places requiring the greatest illumination. If necessary, the removable part 13 of the searchlight rotates around its vertical axis relative to the base 1, while the light flux is directed in a given direction. In cases of inaccessible places of lighting, the removable part 13 of the searchlight is removed from the tubular support 12 and together with the light source 5 it is manually transferred to inaccessible places. When removing the removable part 13 from the base 1, the electric wire 18 and the tubes 10 and 11 are pulled out within predetermined limits by increasing the pitch between the spirals of the electric wire and the tubes.

This spotlight provides illumination as much as possible, while ensuring normal working conditions of the LED light source, less susceptible to both mechanical and thermal damage, in comparison with incandescent lamps. The increase in illumination and ease of operation is achieved due to more efficient cooling of the light source, as well as due to the choice of LED light source for operation in difficult conditions, where the light source can be subjected to shock and / or thermal loads. It is significant that increasing the intensity of heat removal from the LED light source provides the ability to increase the power of the searchlight without changing its design. In this case, the LED light source is replaced with a more powerful light source. Improving the reliability of the spotlight is achieved due to the reliability of the light source in difficult conditions. Improving the usability of the searchlight is achieved due to the fact that the searchlight has a removable part that is detachable from the base, with which the removable part is connected by spiral tubes and an electric wire, allowing you to remove the light source from the power unit installed in the base.

Claims (13)

1. A searchlight, characterized in that it contains a base mounted on the base of the support, a housing connected to the support, provided with at least one LED light source that is connected by an electric wire to a current source, as well as a cooling system of the light source, including a cooling radiator a light source equipped with a board on which the light source is fixed, and having a cavity for the coolant, and also connected to the radiator through a flexible pump and outlet tube of the hydraulic pump. 2. The searchlight according to claim 1, characterized in that the cooling system comprises an expansion tank. 3. The searchlight according to claim 1, characterized in that the supply and outlet pipes of the cooling system are connected to the radiator by means of fittings. 4. The searchlight according to claim 1, characterized in that the supply and discharge tubes are located in a heat-insulating jacket. 5. The searchlight according to claim 1, characterized in that the supply and discharge tubes have a spiral shape. 6. The searchlight according to claim 1, characterized in that the electrical wire has a spiral shape. 7. The searchlight according to claim 1, characterized in that the support is made tubular. 8. The searchlight according to claim 1, characterized in that the support is made in the form of a profile with open channels for tubes and electric wires. 9. The searchlight according to claim 1, characterized in that it has a removable part equipped with a handle, the lower part of which is inserted into the support. 10. The searchlight according to claim 1, characterized in that the support is detachably mounted on the base. 11. Searchlight, characterized in that it is equipped with an additional heat sink radiator in communication with the supply pipe, the discharge pipe and the hydraulic pump. 12. The searchlight according to claim 11, characterized in that the additional radiator is installed in front of the hydraulic pump. 13. The searchlight according to claim 11, characterized in that the additional radiator is installed after the hydraulic pump.

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