RU133902U1 - LED STREET LIGHT - Google Patents

Abstract

1. A street LED lamp, comprising a housing with external and internal cooling fins, a fixture attachment unit to the pipe of the lighting support, an LED cluster with secondary optics with lenses and a power supply, the LED cluster being mounted on the lower part of the lamp housing and the secondary optics fixed on the LED a cluster, characterized in that at least two longitudinal grooves are formed in the body of the casing, through which the attachment unit of the lamp to the pipe of the lighting support is fixed from above to the casing of the fixture, the longitudinal grooves are made in the form of ventilation channels for cooling the lamp housing, the power supply unit is placed on top of the housing in front of the fixture mount unit and is filled with a heat-conducting compound for sealing and heat removal from the power supply, and the LED cluster with secondary optics is filled with a heat-conducting compound with a sealing compound to the level of the secondary lenses optics. 2. The lamp according to claim 1, characterized in that the attachment unit of the lamp to the pipe of the lighting support is fixed to the lamp housing with rivets or screws. The lamp according to claim 1, characterized in that the LED clusters are fixed to the lamp housing using self-tapping screws and / or glue. The lamp according to claim 1, characterized in that the secondary optics is fixed on the LED cluster using adhesive sealant.

Description

FIELD OF TECHNOLOGY

The invention relates to lighting equipment, in particular to devices for lighting streets, roads, squares, transport tunnels, junctions, pedestrian crossings, railway stations and stadiums. The lamp can also be used for lighting industrial premises, warehouses and underground passages.

In the modern market of street lamps, there is a need for analogues of conventional street lighting lamps: DNaT and DRL. These LED lights are designed to work in AC networks with a voltage of 187-253 V with a frequency of 50 Hz.

BACKGROUND OF THE INVENTION

A device is known - a street LED lamp, consisting of a LED module, including a horizontally elongated monolithic support with heat-conducting fins on the outer surface and on the front side of the LED panel placed behind the light-transmitting protective screen; an electric cable connecting the LED module to the power source; a basic fastening holder, consisting of a tube-shaped body with a closed end on one side and an open end on the other for mounting on a lamp post; a connecting element between the base holding holder and the LED module, the connecting element being made in the form of two horizontally elongated rigidly connected and arranged one under the other boxes of the shape of parallelepipeds, in which an electric cable is laid, tightly in contact with their horizontal surfaces: upper box lower, lower box - upper along the entire length of the upper duct, while the height of the upper duct exceeds the height of the lower, and the length of the upper duct is less than the length of the lower one and is equal to Line holder of the fixing base to which the upper box is configured in a common housing (patent RU №92714 U1, F21S 13/10, Anosov MF et al., 2009)

This utility model is intended for street and industrial lighting. The peculiarity of this street lamp is that the connecting element between the lamp housing and the mounting unit to the pipe of the lighting column of the lamp is made in the form of two boxes of rectangular shape, located one above the other and in which the power cable is laid.

However, this device has an insufficient service life, since the power supplies of the lamp are located inside the housing above the LEDs, which leads to their additional heating from LED clusters.

Closest to the proposed one is a street LED lamp, mounted on a support and having, a housing, the surface of which is made in the form of fins, an LED cluster installed inside the housing with LEDs connected in series on a printed circuit board, and a power supply, and on top of each LED installed optical distribution lens, and the housing is equipped with fastening docking elements of the “dovetail” type in the form of a groove on one side of the housing and a spike on each other minutes, allowing to interconnect multiple packages, increasing the power of the lamp, wherein the housing further installed protective glass (RU 88769 U1, F21S 13/10, Ltd. "Ledel", 2009).

The disadvantages of this utility model are as follows:

- to increase the luminous flux (power increase), it is necessary to parallelly connect several lamp housings into a single structure, which leads to a sharp increase in the weight and dimensions of the entire lamp, and the resulting structure has a large windage and can cause the lamp to fail if the wind is strong;

- power supplies of the lamp are located inside the housing above the LEDs and therefore they are additionally heated from the latter, which shortens their life. In addition, the formation of condensate in the housing may lead to the possibility of a short circuit and the lamp failure;

- To seal the LEDs, printed circuit boards and power supplies, end caps and a protective outer glass are used, which reduces the luminous flux by 15-20% and impairs the cooling of the LEDs;

- end caps are made of plastic, while the body is made of aluminum. Their temperature expansion coefficients have significant differences, therefore, when the lamp is in operation and its housing is heated to 60-70 degrees, the sealing of the LED cluster and the power supply compartment is violated.

The objective of this utility model is to eliminate the above disadvantages and thereby improve the functional and operational characteristics of a street LED lamp due to the improved cooling of its LED clusters.

SUMMARY OF THE INVENTION

The problem is solved in that the street LED lamp contains a housing with external and internal cooling fins, a fixture attachment unit to the pipe of the lighting support, an LED cluster with secondary optics with lenses and a power supply, the LED cluster being mounted on the lower part of the lamp housing, and the secondary the optics are fixed on the LED cluster, at the same time, at least two longitudinal grooves are formed in the body of the housing, through which the fixture's fixture to the lighting support tube is fixed it is mounted on top of the luminaire housing, the longitudinal grooves are made in the form of ventilation channels for cooling the luminaire housing, the power supply unit is located on top of the housing in front of the fixture mount unit and is filled with a heat-conducting compound for sealing and heat removal from the power supply, and the LED cluster with secondary optics is filled with a heat-conducting sealing compound to the level of secondary optics lenses.

Preferably, the attachment unit of the lamp to the pipe of the lighting support is mounted on top of the lamp housing with rivets or screws.

Preferably, the LED clusters are fixed to the lamp housing using self-tapping screws and / or glue.

Preferably, the secondary optics are fixed to the LED cluster using sealant glue.

The specified implementation of the device allows to improve the functional and operational characteristics of the lamp due to the improved cooling of its LED clusters.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 shows a sectional view of the device of the LED street lamp;

figure 2 illustrates a side view of the LED street lamp.

MODE FOR CARRYING OUT THE INVENTION

As shown in figure 1, the street LED lamp contains a housing 1 with a mounting unit 2 of the lamp to the pipe lighting support. At least two longitudinal grooves 3 are formed in the housing 1, by means of which it is connected to the fastening unit 2 by means of fasteners 4, in particular rivets or screws can be used through steel plates 5 to increase the rigidity of the structure. On the housing 1 cooling fins are made - internal 6 and external 7, which remove heat from the housing 1 to the environment. On the lower surface of the housing 1, LED clusters 8 with secondary optics 9 with lenses are installed. LED clusters 8 are equipped with fasteners 10 to the housing 1. LED clusters 8 with LEDs in one, two or more rows are attached to the housing 1 using self-tapping screws and / or hot-melt adhesive. LED clusters 8 with secondary optics 9 are filled with a sealing heat-conducting compound 11 (composite mass). Compound 11 completely seals the LED cluster 8 and simultaneously removes heat from the LEDs.

As shown in figure 2, on top of the housing 1 in front of the mount 2 is a power supply 12, which for sealing is filled with a heat-conducting compound mass, which provides heat removal from the power supply 12 to the mount 2, which is also a cooling radiator for the power supply 12. Housing 1 of the luminaire is provided with side covers 13. The attachment unit 2 is equipped with locking screws 14 and a limit screw 15. The front end part of the attachment unit 2 is closed by a metal plate 16. The input of wires from the power supply 12 to the LED cluster 8 have sealed through openings in the attachment element 2 and the housing 1 of the luminaire. The power supply to the luminaire is made through the terminals 17 located in the pipe of the lighting support (not shown in the drawing). The power supply 12 is equipped with a grounding screw 18 and wires 19 connecting the power supply 12 and the LED cluster 8. The side covers 13 are attached to the housing 1 with fixing screws 20.

The device operates as follows.

The LED street lamp using the mount 2, put on the pipe lighting support (not shown) until it stops in the restriction screw 15, fix in position with the locking screws 14 and connect the terminals 17 to the supply network Internal cooling ribs 6 start to work when the lamp is inclined to a horizontal plane. This is a typical street lamp position.

The luminaire is powered through terminals 17 located in the pipe of the lighting support.

The longitudinal groove 3 is a ventilation element and further cools the housing 1 of the lamp. An LED cluster 8 with LEDs in one, two or more rows is fixed to the housing 1 with the help of fasteners 10 made in the form of self-tapping screws or (and) hot-melt adhesive. The lenses of secondary optics 9 are installed on the LEDs using sealing glue. Next, a fixed cluster with LEDs and secondary optics is filled with a sealing heat-conducting compound 11. A sealing heat-conducting compound 11 completely seals the LED cluster 8 and simultaneously removes heat from the LEDs.

The input of wires from the power supply unit 12 to the LED cluster 8 is through the holes inside the mount 2 and the housing 1 of the lamp through the sealant.

The proposed device design allows to improve the functional and operational characteristics of the lamp due to the improved cooling of its LED clusters.

It will be apparent to one skilled in the art that various modifications and changes are possible in the present utility model. Accordingly, it is assumed that the present utility model covers the indicated modifications and changes, as well as their equivalents, without departing from the essence and scope of the utility model disclosed in the attached utility model formula.

Claims (4)

1. A street LED lamp, comprising a housing with external and internal cooling fins, a fixture attachment unit to the pipe of the lighting support, an LED cluster with secondary optics with lenses and a power supply, the LED cluster being mounted on the lower part of the lamp housing and the secondary optics fixed on the LED a cluster, characterized in that at least two longitudinal grooves are formed in the body of the casing, through which the attachment unit of the lamp to the pipe of the lighting support is fixed from above to the casing of the fixture, the longitudinal grooves are made in the form of ventilation channels for cooling the lamp housing, the power supply unit is located on top of the housing in front of the fixture mount unit and is filled with a heat-conducting compound for sealing and heat removal from the power supply, and the LED cluster with secondary optics is filled with a heat-conducting compound for sealing to the level of the secondary lenses optics. 2. The lamp according to claim 1, characterized in that the attachment point of the lamp to the pipe of the lighting support is fixed to the lamp housing with rivets or screws. 3. The lamp according to claim 1, characterized in that the LED clusters are fixed to the lamp housing using self-tapping screws and / or glue. 4. The lamp according to claim 1, characterized in that the secondary optics are fixed on the LED cluster using adhesive sealant.

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