RU2571003C1 - Light-emitting diode module - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: light-emitting diode (LED) module consists of a LED and a mounting tool. The LED has a translucent housing with a base and a lens in the upper part, inside of which there is a LED emitter. Electrodes of the LED extend outwards from the housing through side walls at an angle of 180 degrees relative to each other and perpendicular to the vertical axis thereof, thereby forming electrical contacts on the sides of the housing. The mounting tool is in the form of an insulating housing with holes and recesses and/or grooves under the housing and LED contacts in which there are also spring-loaded contacts of the mounting tool, which are in the form of metal plates having leads outside the insulating housing. The LED is connected to the mounting tool by placing the LED in the insulating housing and locking its contacts with the contacts of the mounting tool through translational and rotational movement of the LED.

EFFECT: easy connection of the LED module to an electrical circuit and replacement thereof.

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Description

The invention relates to lighting technology, namely, LEDs used as indicator or as light sources with a different range of the spectrum of light waves, and devices for their installation.

Known LEDs for various purposes, in which the LED emitter is placed in a translucent housing, mainly oblong in shape with a round, oval or other cross-sectional shape, having a flat base and a lens located in the upper part (for example, patents: JP 2009043972, IPC H01L 33/00 2009 publication; JP 2006135114; IPC H01L 33/00; 2006 publication; CN 1372332; IPC H01L 33/00; 2002 publication). The terminals of the electrodes (anode and cathode) for such LEDs traditionally go down through the base.

Despite the fact that such an LED design is widespread, it has significant limitations on its mounting to an electric circuit, and, as a rule, the installation of such an LED is carried out by soldering.

Another LED is known in which the electrodes (anode and cathode) exit from the housing through the base, have a thickened shape and bend to the sides, forming L-shaped contacts (patent CN 101806436, IPC H01L 33/00, 2010 publication).

This design expands the possibilities for installation and, in particular, a rivet connection with a mounting plate is proposed. But this LED design also has limitations for its installation and for use in various designs.

A device is known - an LED module. The device consists of an LED having an elongated housing with a base and a lens in the upper part, the electrodes of which are traditionally brought down from the housing through the base, as well as a mounting device consisting of two housing parts. The first housing part is connected to the electrical network, and an LED is first installed in the second housing part, and then it is connected to the first housing part (JP patent 2008053585, IPC H01L 33/00, 2008 publication).

The advantage of this device is that it makes it easy to mount and replace the LED without resorting to soldering. But a significant drawback is the complexity of the design of the mounting device, its limited application, as well as the high cost of manufacture.

Another device is known - an LED module. The device consists of an LED having an elongated housing with a base and a lens in the upper part, the electrodes of which are traditionally brought down from the housing through the base, as well as a mounting device consisting of a current-insulating housing and two contact conductive inserts, one end of which is connected by pressing or soldering to electrical wires, and at the second ends are spring tabs for clamping the LED electrode (patent JP 2006114791, IPC H01L 33/00, 2006 publication).

The advantage of this device is the ability to quickly and without soldering connect the LED to the electrical circuit. At the same time, the design of the spring tongue clamp is made according to the same principle that is commonly used in clamp terminals for electric wires (for example, patent EP 0828314). But the disadvantage of this design is that it does not provide a mechanism for safe disconnection of the LED (unlike electrical terminals, as provided in the same patent EP 0828314). Therefore, this design is not designed to safely disconnect the LED from the mounting fixture.

The technical result of the proposed invention is to simplify the installation of the LED to the electrical circuit and replace it without resorting to soldering, as well as expanding the possibilities for using the LED in various designs, including due to the ability to place the LED in the mounting device in different ways.

The technical result is achieved as follows.

The LED consists of a translucent housing having a base and a lens in the upper part, inside which the LED emitter is placed. The electrodes of the LED (anode and cathode) are brought out from its housing through the side walls at an angle of 180 degrees relative to each other and perpendicular to its vertical axis, forming electrical contacts on the sides of the LED housing.

The LED housing at the points of exit of its contacts to the outside may have a support flange encircling the LED housing in the plane of its cross section, with a diameter greater than the larger diameter of the cross section of the housing itself and with a height equal to or greater than the thickness of the protruding outward contacts.

A recess for the screwdriver can be made at the base of the LED housing.

The base of the LED housing can be flat, slightly convex or concave.

The LED housing may have a round, oval, or other cross-sectional shape.

The LED is connected to the electric circuit by means of a mounting device, which has three design options.

The device for mounting the LED to the electric circuit according to the first embodiment consists of an insulating casing in which a hole is made for the LED casing and grooves are made for the LED contacts, in which spring-loaded contacts are made made of metal plates and having leads to the outside of the insulating casing. The hole for the LED housing and the slots for its contacts are made in such a way that they allow the LED together with the contacts to plunge into the insulating housing and move inside the longitudinal axis of the LED housing.

The device for mounting an LED to an electric circuit according to the second embodiment consists of an insulating casing in which holes are made for the LED casing, slots and grooves for the LED contacts are made, which also contain spring-loaded contacts made of metal plates and having leads to the outside of the insulating casing. The holes for the LED housing, slots and grooves for its contacts are made in such a way that they allow the LED, together with the contacts, to first plunge into the insulating housing, and then inside rotate around its axis.

The device for mounting the LED to the electric circuit according to the third embodiment is a metal spring-lock clamps, which can be located both in the insulating casing and have leads to the outside, and directly on the circuit board itself.

The claimed LED design and devices for its installation are presented in the drawings, where in FIG. 1 frontally shows the LED installed in the mounting device, made according to the first embodiment and shown in section; in FIG. 2, the LED is frontally depicted during installation in a mounting fixture made in the second embodiment and shown in section; in FIG. 3 shows the top placement of the LED in the mounting device made according to the second embodiment; in FIG. 4 frontally shows the LED in the process of its installation in the mounting device, made according to the third embodiment and shown in section.

The LED consists of a translucent housing 1, having a base and a lens in the upper part, inside which the LED emitter 2 is placed. The electrodes of the LED (anode and cathode) are brought out from its housing through the side walls at an angle of 180 degrees relative to each other and perpendicular to its vertical axis forming electrical contacts 3 and 4 on the sides of the LED housing.

The housing of the LED 1 at the points of exit of its contacts 3 and 4 to the outside may have a supporting edge 5 encircling the housing of the LED in the plane of its cross section, with a diameter greater than the larger diameter of the cross section of the housing itself and with a height equal to or greater than the thickness of the protruding outward contacts 3 and 4.

At the base of the housing of the LED 1, a recess 6 is made under the screwdriver.

The device for mounting the LED to the electric circuit according to the first embodiment consists of an insulating body 7, in which a hole 8 is made for the LED housing and grooves 9 are made for the contacts of the LEDs 3 and 4, in which spring-loaded contacts 10 and 11 are made of metal plates and having conclusions to the outside of the insulating casing 7. The hole 8 for the LED housing and the slots 9 for its contacts are made in such a way that they allow the LED together with the contacts to plunge into the insulating casing 7 and move longitudinally about the axis of the LED housing 1.

The device for mounting the LED to the electric circuit according to the second embodiment consists of an insulating housing 12 in which holes 13 are made for the LED housing, slots 14 and grooves 15 are made for the contacts of the LEDs 3 and 4, in which spring-loaded contacts 16 and 17, made of metal plates and having leads outward to the insulating housing 12. But the holes 13 for the LED housing, the slots 14, and the slots 15 for its contacts are made in such a way that they allow the LED together with the contacts to plunge into the insulating housing 12, and then rotate.

The device for mounting the LED to the electric circuit according to the third embodiment is a metal spring-lock grips 18 and 19, which can be located both in the insulating casing and have leads to the outside, and directly on the circuit board itself.

The connection of the LED to the electrical circuit through the first mounting device is as follows. The device for mounting the LED using the metal contacts 10 and 11 protruding from the insulating casing 7 to the outside is mounted on a circuit board or connected to an electrical circuit, and the LED is connected to the mounting device by immersing its casing together with contacts 3 and 4 through the hole 8 and slots 9 of the insulating case 7 and jamming there of its contacts 3 and 4 with spring-loaded metal contacts 10 and 11 due to the longitudinal translational movement of the LED.

The LED and the fixture for its mounting according to the first embodiment have the structural possibility to install the LED in the insulating housing 7 both from the side of its lens and from the side of its base.

The connection of the LED to the electrical circuit by means of a second mounting device is as follows. The device for mounting the LED using the metal contacts 16 and 17 protruding from the insulating casing 12 to the outside is mounted on a circuit board or connected to an electrical circuit, and the LED is connected to the mounting device by immersing its casing together with the contacts through the holes 13, slots 14 and insulating slots 15 housing 12 and jamming there of its contacts 3 and 4 with spring-loaded metal contacts 16 and 17 by turning the LED around its axis by an angle of approximately 90 degrees.

The LED and the fixture for its mounting according to the second embodiment have the structural possibility to install the LED in the insulating housing 12 both from the side of its lens and from the side of its base.

The connection of the LED to the electrical circuit by means of a third mounting device is as follows. The metal snap locks 18 and 19 are mounted directly on the circuit board or, placed in an insulating casing, are connected to the electrical circuit using their terminals, and the LED is connected to them by immersing their contacts 3 and 4 and snapping in them.

The technical result of the claimed invention is that the described design of the LED and devices for its installation simplify the installation of the LED to the electrical circuit and its subsequent replacement without resorting to soldering, and also expand the possibilities for using the LED in various designs, including due to the possibility of place the LED in the proposed mounting devices in different ways.

Claims (6)

1. An LED module, consisting of an LED having a translucent housing with a base and a lens in the upper part, inside which an LED emitter is placed, and a mounting fixture by which the LED is connected to an electric circuit, characterized in that the electrodes of the LED are led out from its housing through the side walls at an angle of 180 degrees relative to each other, forming electrical contacts on the sides of the LED housing, and the mounting device is made of an insulating housing in which holes are made for the LED housing and slots and / or grooves are made for the LED contacts, in which the spring-loaded contacts of the mounting device are made of metal plates and having leads outward to the insulating body, so that the LED is connected to the mounting device by dipping the LED together with contacts into the insulating housing of the mounting device through the holes, slots and / or slots in it, and jamming of the LED contacts with the contacts mounting device inside the insulating casing using translational or rotational movement of the LED. 2. The LED module according to claim 1, characterized in that the housing of the LED at the points of exit of its contacts to the outside has a support flange encircling the housing of the LED in the plane of its cross section, with a diameter greater than the larger diameter of the cross section of the housing itself, and a height equal to or greater than the thickness of the protruding outward contacts. 3. The LED module according to claim 1, characterized in that a recess for the screwdriver is made in the base of the LED housing. 4. The LED module according to claim 1, characterized in that the base of its housing is flat, convex or concave. 5. The LED module according to claim 1, characterized in that the mounting device is made in the form of metal snap locks that are mounted directly on the circuit board, and the LED is attached to them by immersing its contacts and snapping into them. 6. The LED module according to claim 5, characterized in that the metal snap locks are in a separate insulating housing.

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