CN105333405B - Electrical connection device and lighting device - Google Patents

Abstract

The invention relates to an electrical connection device for a lighting device and a lighting device, comprising a carrier and at least one electrical contact arranged on the carrier, wherein the electrical contact is designed to be pressed against an electrical contact of an electrical component of the lighting device in an elastically deformable manner, so that an electrical connection is formed between the electrical component and a further electrical component.

Description

Electrical connection device and lighting device

Technical Field

The present invention relates to an electrical connection device for a lighting device and a lighting device comprising the same.

Background

In order to electrically connect a plurality of electrical components, such as a light engine and a driver, in a lighting device, flexible wires are often used to electrically connect the electrical components. In the case where the light engine in the lighting device becomes longer than before at the time of temperature rise in consideration of thermal expansion or the like, the flexible electric wire described above can accommodate changes in volume and size of the electric parts when heated by virtue of its flexibility to avoid contact failure of the electric connection between the electric parts or falling off of the electric wire due to thermal expansion. However, in the case of forming the internal electrical connection of the lighting device by using the flexible electric wire, both ends of the flexible electric wire are required to be fixedly connected to different electric components, respectively, so that the electrical connection between the two electric components can be completely formed, which is disadvantageous for automatic assembly or automatic production of the lighting device.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a novel electrical connection device and a lighting device using the same. The electric connecting device has larger deformation range suitable for various electric components, and can also avoid damage of contacts between the light engine and other connectors due to thermal expansion at high temperature. In addition, the electric connecting device has simple structure and convenient assembly, and has simpler electric connecting mode compared with the electric connection formed by using flexible electric wires, thereby being more beneficial to the automatic production of the electric connecting device.

One object of the invention is achieved by an electrical connection device comprising a carrier and at least one electrical contact arranged on the carrier, wherein the electrical contact is designed to press in an elastically deformable manner against an electrical contact of an electrical component of a lighting device, so as to form an electrical connection between the electrical component and a further electrical component.

The electrical connection device according to the invention replaces the electrical connection with flexible wires to the electrical components in the lighting device with an elastically deformable connection. The elastically deformable electrical contact has a larger assembly tolerance range and can better adapt to the assembly mode of an electric component by moving the electric component to form an electric connection with another electric component. The forces exerted by the elastic deformation on the light engine or other electrical connector are low and when the electrical component is mounted to the electrical connector, the primary forces exerted on the electrical connector are perpendicular to the surface of the light engine carrying the electrical connector and do not cause damage to the light engine or to the electrical contacts on the electrical connector.

In addition, the electrical connection device according to the present invention also provides a reliable electrical connection manner in which electrical connection between the electrical components is achieved by moving the electrical components. In the case of multiple electrical contacts, the carrier can define a gap between the contacts for good electrical connection safety and insulation.

According to a preferred embodiment of the invention, the carrier comprises a contact face that can be arranged on the further consumer and the electrical contact comprises a first electrical connector that is at least partially exposed from the contact face and can be fixedly connected to the further consumer and a second electrical connector that projects from a further face opposite the contact face and can be brought into electrical contact with the consumer in an elastically deformable manner. The two consumer components are electrically connected by a first electrical connection and a second electrical connection, and the two electrical connections are electrically conductive to each other.

It is preferred for an embodiment of the invention that the electrical contact further comprises a third electrical connector, wherein the second electrical connector and the third electrical connector can be fixed in a clamping manner on the carrier. This way of clamping provides the possibility of the electrical contact to be detachably mounted on the carrier and provides an extremely simple way of assembly.

Preferably, the first electrical connector comprises a first connection section and a second connection section, wherein the first connection section is designed to be bent towards the second electrical connector and the second connection section is designed to extend along the contact surface. In the state in which the electrical contacts are separated from the carrier, the first connection section provides the possibility of forming a fixed connection with the carrier when inserting or mounting the electrical contacts onto the carrier.

It is advantageous for an embodiment of the invention that the contact surface is designed flat and can form a surface abutment with a further electrical component connected to the contact surface. A flat contact surface is advantageous for e.g. surface mount technology SMT.

It is furthermore preferred that the carrier comprises a receiving groove and an indentation, wherein at least the third electrical connector is received in the receiving groove and the first connection section is insertable into the indentation such that the receiving groove is able to receive the electrical contact of the part. When the first connection section is inserted into the notch, the electrical contact can be fixedly connected with the carrier, and under the elastic action of the electrical contact, the first connection section can keep the state of being inserted into the notch, and under the condition that external force is applied, the first connection section can also leave the notch, so that the electrical contact can be separated from the carrier.

Preferably, the first, second and third electrical connection elements are integrally designed as a single component, and the electrical contact elements are made of an electrically conductive, elastic material. The three electrical connections can form one single elastic component in the form of a spring leaf or spring tongue. This is extremely advantageous for manufacturing and assembling the electrical connection device.

Preferably, the second electrical connection element is made of an electrically conductive, elastic material and is designed to bend towards the contact surface during the electrical connection between the consumer parts forming the electrical connection device. According to such a design, the second electrical connector can be moved in bending towards the contact surface under the force of the pressing of the electrical component, which provides a larger range of assembly tolerances, which is highly advantageous for avoiding that the electrical connection between the electrical components is affected by thermal expansion.

Preferably, the second electrical connection is designed with a shape curved away from the contact surface. The electrical contact according to the invention has a shape resembling the letter S, seen from the side, which shape advantageously gives the electrical contact the resilient properties of a conventional spring tongue, for example.

Preferably, the electrical contact is designed to be mounted on the carrier in a detachable manner.

Preferably, the electrical contacts are designed in one piece with the carrier.

According to an embodiment of the invention, the electrical contact is preferably designed as a spring tongue.

Another object of the invention is achieved by a lighting device comprising a light engine and a driver, wherein the lighting device further comprises an electrical connection device according to the above, wherein the electrical connection device is fixedly arranged on the light engine and the electrical connection device is capable of forming an electrical connection between the light engine and the driver.

According to the lighting device of the present invention, after the electrical connection device is mounted to one of the electrical components of the lighting device, for example, the light engine, the end of the driver of the lighting device having the electrical contact is movable towards the electrical connection device and when the electrical contact is pressed to the electrical contact of the electrical connection device, an electrical connection between the light engine and the driver is formed.

It is advantageous for the lighting device according to the invention that the electrical connection means are fixedly arranged on the light engine in surface mount technology.

Advantageously, the driver comprises a plurality of contacts, with each contact being able to be brought into electrical connection by an electrical contact pad of the electrical connection means, respectively, when the driver is connected to the electrical connection means.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. The drawings illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. Like parts are designated by like reference numerals in the drawings. The figures show that:

figure 1 shows an exploded schematic view of an electrical connection device according to the invention;

FIG. 2 shows a schematic view of an assembled electrical connection device according to the present invention;

figure 3 shows a side view in cross-section of an assembled electrical connection device according to the invention;

fig. 4 shows a schematic connection between an electrical connection device according to the invention and a light engine of a lighting device;

fig. 5 shows a schematic view of a driver with contacts of a lighting device according to the invention;

fig. 6 shows a schematic view of a light engine of a lighting device according to the present invention after being electrically connected to an electrical connector by an electrical connection device.

Detailed Description

Fig. 1 shows an exploded schematic view of an electrical connection device 100 according to the present invention. The electrical connection device 100 comprises a carrier 1 which is substantially designed as a cuboid and at least one electrical contact 2. On the carrier 1, accommodating grooves 11 are provided for accommodating individual electrical contacts 2, as well as recesses 12 for the connection to the electrical contacts 2. In order to be able to secure the electrical contacts 2 in a clamping manner on the carrier 1, the carrier 1 furthermore comprises a platform P which is arranged in the form of an elongate strip and whose length and width can correspond to the length and width of the electrical contacts 2. The two opposite exposed surfaces of the platform P and the inner wall W of the carrier 1 perpendicular to the surfaces form accommodating grooves 11 for accommodating the electrical contacts 2.

As shown in fig. 1, the carrier 1 furthermore defines, by means of the inner wall W and the platform P, a plurality of receiving grooves 11 for receiving individual electrical contacts 2 in each case. However, the number of the receiving groove 11 and the electrical contact 2 may be plural as shown in the figure or may be designed to be single, depending on the specific application. The inner wall W and the platform P also enable electrical insulation between the plurality of electrical contacts 2 to ensure the safety of the electrical connection device 100. Furthermore, although fig. 1 shows that the carrier 1 and the electrical contact 2 of the electrical connection device 100 according to the present invention are separately and detachably mounted, the carrier 1 and the electrical contact 2 may be made to be integral and non-detachable according to actual production or application requirements.

Fig. 2 shows a schematic view of an assembled electrical connection device 100 according to the present invention. After the electrical contact 2 is disposed on the carrier 1 and fixedly connected with the carrier 1, the electrical contact 2 can clamp the platform P of the carrier 1, and a portion of the electrical contact 2 can be inserted into the notch 12 of the carrier 1 to fixedly connect the electrical contact 2 with the carrier 1. Fig. 3 shows a side view in cross-section of an assembled electrical connection device 100 according to the present invention. The interconnection of the parts of the electrical contacts 2 with the carrier 1 after mounting of the electrical contacts 2 on the carrier 1 can be seen in fig. 3. The electrical contact 2 includes a first electrical connector 21 exposed from a contact surface S of the carrier 1 with the electrical component, a second electrical connector 22 protruding from the other surface opposite to the contact surface S, and a third electrical connector 23 provided and connected between the first electrical connector 21 and the second electrical connector 22. The first electrical connector 21 includes a first connection section 211 bent toward the third electrical connector 23 or the second electrical connector 22, and a second connection section 212 extending from the first connection section 211 and extending along the contact surface S. The third electric connector 23 integrally connected with the first electric connector 21 and the first electric connector 21 may be disposed, for example, in parallel to each other and sandwich the stage P of the carrier 1 therebetween. Thereby, the first electrical connector 21 and the third electrical connector 23 substantially surround the circumferential surface of the stage P as viewed in side elevation. The second electrical connector 22, which is extended by the third electrical connector 23 away from the contact surface S, is formed in a convex shape as viewed from the side. The three electrical connectors 21, 22, 23 described above are preferably integrally formed, i.e. made as one piece, having a shape resembling the letter S.

Fig. 4 shows a schematic connection between the electrical connection device 100 according to the present invention and the light engine 101 of the lighting device. The electrical connection device 100 may be preferably mounted and fixed on the light engine 101 by SMT. Here, the electrical connection device 100 may also be disposed on other electrical components, such as a driver, as desired for a particular application. The preferred electrical connection device 100 is disposed at the end of the light engine 101, which reduces the distance that another electrical component, such as a driver, needs to move in order to connect to the electrical connection device 100, making it more convenient to form an electrical connection between the electrical components.

Fig. 5 shows a schematic view of a driver 102 with contacts 3 of a lighting device according to the invention. On the lower surface of one end of the actuator 102, or on the side facing the electrical connection device 100 when the actuator 102 is connected to the electrical connection device 100, a contact 3 is provided. The number and shape of the contacts 3 may correspond to the number and shape of the contact surfaces with which the electrical contacts 2 are in contact. When the number of the electrical contacts 2 is 3 as shown in the figure, for example, the number of the contacts 3 may be 3. However, the number of contacts 3 may also be different from the number of electrical contacts 2, for example the contacts 3 are provided as a single contact surface, for specific application needs. The contact 3 can preferably be designed to be made of a copper sheet.

Fig. 6 shows a schematic diagram of a lighting device according to the present invention after the light engine 101 is electrically connected to the driver 102 via the electrical connection device 100. In fig. 6, for example, when the driver 102 is directed toward the light engine 101 on which the electrical connection device 100 is mounted, the driver 102 can contact the electrical connection device 100 and press and elastically deform the electrical contacts 2 of the electrical connection device 100, thereby forming an electrical connection between the driver 102 and the light engine 101.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Reference numerals

1 vector

2 electric contact

3 contact

21 first electrical connector

22 second electrical connector

23 third electrical connection

211 first connection section

212 second connection section

P platform

W inner wall

S contact surface

11 accommodating groove

12 gap

100 electric connection device

101 light engine

102 driver.

Claims (13)

1. An electrical connection device (100) for a lighting device, comprising a carrier (1) and at least one electrical contact (2) arranged on the carrier (1), characterized in that the electrical contact (2) is designed to be pressed in an elastically deformable manner against an electrical contact of an electrical consumer of the lighting device, so as to form an electrical connection between the electrical consumer and another electrical consumer; the carrier (1) comprises a contact surface that can be arranged on the further electrical consumer, and the electrical contact (2) comprises a first electrical connector (21) and a second electrical connector (22), wherein the first electrical connector (21) is at least partially exposed from the contact surface and can be fixedly connected to the further electrical consumer, wherein the second electrical connector (22) projects from a further surface opposite the contact surface and can be brought into electrical contact with the electrical consumer in an elastically deformable manner, wherein the first electrical connector (21) comprises a first connection section (211) and a second connection section (212), wherein the first connection section (211) is bent towards the second electrical connector (22), and wherein the second connection section (212) extends from the first connection section (211) and extends along the contact surface; and the second connection section (212) of the first electrical connector (21) extends parallel to the contact face.

2. The electrical connection device (100) according to claim 1, characterized in that the electrical contact (2) further comprises a third electrical connector (23), wherein the first electrical connector (21) and the third electrical connector (23) are fixable on the carrier (1) in a clamping manner.

3. The electrical connection device (100) according to claim 1, characterized in that the contact surface is designed flat and can form a surface-contact with the further electrical component connected to the contact surface.

4. The electrical connection device (100) according to claim 2, wherein the carrier (1) comprises a receiving groove (11) and an indentation (12), wherein at least the third electrical connector (23) is received in the receiving groove (11) and the first connection section (211) is insertable in the indentation (12) such that the receiving groove (11) is able to receive part of the electrical contact (2).

5. The electrical connection device (100) according to claim 2, characterised in that the first electrical connector (21), the second electrical connector (22) and the third electrical connector (23) are designed integrally as a single component and the electrical contact (2) consists of an electrically conductive, elastic material.

6. The electrical connection device (100) according to claim 1, characterized in that the second electrical connector (22) is made of an electrically conductive elastic material and is designed to bend towards the contact face during the formation of an electrical connection between the electrical components of the electrical connection device (100).

7. The electrical connection device (100) according to claim 6, characterised in that the second electrical connection (22) is designed with a shape curved away from the contact face.

8. The electrical connection device (100) according to claim 1, characterized in that the electrical contact (2) is designed to be mounted on the carrier (1) in a detachable manner.

9. The electrical connection device (100) according to claim 1, characterized in that the electrical contact (2) is designed in one piece with the carrier (1).

10. The electrical connection device (100) according to claim 1, characterised in that the electrical contact (2) is designed as a spring tongue.

11. A lighting device comprising a light engine (101) and a driver (102), characterized in that the lighting device further comprises an electrical connection device (100) according to any one of claims 1-10, wherein the electrical connection device (100) is fixedly arranged on the light engine (101) and the electrical connection device (100) is capable of forming an electrical connection between the light engine (101) and the driver (102).

12. A lighting device as claimed in claim 11, wherein the electrical connection device (100) is fixedly arranged on the light engine (101) by surface mount technology.

13. A lighting device according to claim 11, characterized in that the driver (102) comprises at least one contact (3), an electrical contact of the electrical connection device (100) being able to form an electrical connection with each of the contacts (3) when the driver (102) is connected to the electrical connection device (100).

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