The present invention relates to a lamp base, specifically for an LED lamp, and to a lamp, specifically an LED lamp, incorporating such a lamp base.
Lamps or LED lamps are extensively known. They customarily comprise a light source carrier and a light source driver. The light source carrier comprises a light source proper, for example one or more LEDs, and the light source driver is designed to actuate or drive the light source proper. In general, both the light source carrier and the light source driver are at least partially arranged in a lamp base.
Customarily, the light source carrier, which is generally of a plate-type design, is adhered or soldered onto the light source driver. In general, this means that a defective light source carrier results in a defective lamp on economic grounds.
On the basis of the known prior art, the object of the present invention is to provide an improved lamp base.
Specifically, the invention is intended to provide a lamp base in which a connection can be formed between the light source carrier and the light source driver with no material bonding, thus permitting, for example, the simple and cost-effective replacement of a defective light source carrier.
This object is achieved by a lamp base having the characteristics of claim 1. Advantageous further developments proceed from the subordinate claims.
Accordingly, a lamp base for a lamp, specifically an LED lamp, is proposed, comprising a housing for the at least partial accommodation of a carrier for a light source, wherein two mutually-opposing guide rails are provided in the housing for the form-fitted insertion of the carrier.
The lamp base thus incorporates a housing, which is designed for the accommodation of a light source carrier for carrying a light source. The accommodation of the light source carrier proceeds by means of two mutually-opposing guide rails, which are preferably arranged within the housing. By means of these two mutually-opposing guide rails, the light source carrier can be accommodated in the housing in a form-fitted manner. To this end, each of the guide rails preferably incorporates at least one rail opening with an internal clearance. The light source carrier is, moreover, of a thickness which corresponds to this internal clearance, such that the light source carrier can be inserted into the lamp base in a simple and form-fitted manner.
It is particularly advantageous that the light source carrier can be arranged in the lamp base exclusively by means of form-fitting, so defective light source carriers can be replaced in a simple manner during the service life of the lamp.
Preferably, both of the two mutually-opposing guide rails incorporate a rail opening, arranged to face each other.
The rail openings are thus arranged within the guide rails, so the rail openings face each other. This permits the accommodation of the carrier, independently of the arrangement of the guide rails. For example, the housing is a tube, or of tubular design, and the two guide rails are arranged at 10 o'clock and 2 o'clock, wherein the rail openings in the guide rails face each other. In this case, the light source carrier can be inserted in the housing in the direction of the secant between 10 o'clock and 2 o'clock, provided that the light source carrier is of the customary plate-type design.
In a specifically preferred form of embodiment, the housing is a symmetrical design, such that the guide rails are uniformly distributed within the housing. For example, the housing is a tube, or a tubular design, and the two guide rails are arranged at 9 o'clock and 3 o'clock within the housing.
Preferably, the rail openings extend over the full length of the respective two mutually-opposing guide rails.
Thus, in the simplest case, the guide rails incorporate a slot over their full length. Particularly advantageously, a particularly deep insertion of the light source carrier, thereby results in a lamp of a compact design.
In a preferred configuration, a limit stop to limit the depth of insertion of the carrier along the guide rails is provided, wherein it is specifically preferred that the limit stop is provided in the rail opening of the respective guide rails. Thus, upon the form-fitted insertion of the carrier into the guide rails, it is ensured that the light source carrier cannot be inserted beyond a predefined position. In this manner, moreover, assembly can be simplified, as the presence of the limit stop permits the carrier to be inserted with no further controls. The light source carrier, if it has been inserted to the depth of the limit stop, is thus automatically in the correct position. Additionally, the light source carrier is not easily pushed out again from the guide rails.
The lamp base preferably incorporates a driver receptacle in the housing, which is designed for the at least partial accommodation of a light source driver in the housing.
The driver receptacle is thus arranged within the housing and is preferably designed for the formation of a form-fitted connection between the light source driver and the housing.
It is specifically preferred that the driver receptacle is designed such that the light source driver can be accommodated in the housing, such that the light source carrier is substantially perpendicular to the light source driver. For example, the housing is a tube, or is of tubular design, and the driver receptacle is a recess or gradation which completely encircles the tube and is arranged within the tube, such that the light source driver can be snap-fitted into the housing in a form-fitted manner.
Preferably, the lamp base is of a symmetrical design in at least one axis and incorporates a uniform distribution of the guide rails in the housing.
Particularly advantageously here, the symmetrical design permits cost-effective manufacture, for example by the production of two symmetrical half-shells using an injection-molding process.
Preferably, the housing and the guide rails are formed of one and the same electrically non-conductive material.
Accordingly, both the housing and the guide rails are electrically non-conductive. Moreover, the guide rails and the housing are formed of the same electrically non-conductive material. Particularly advantageous in the case of this combination of one and the same electrically non-conductive material is in particular the possibility of manufacturing the housing by a simple injection-molding method, for example by means of two half-shells or as a one-piece molding.
Preferably, the lamp base incorporates a light source driver, which is arranged in the housing such that the light source carrier, upon the insertion thereof in the two mutually-opposing guide rails, is substantially perpendicular to the light source driver.
Such an arrangement of the light source driver, specifically in the housing, can be permitted for example by a driver receptacle, as described heretofore or hereinafter.
Preferably, the light source driver incorporates a first and a second contact clip, which are arranged with a mutual clearance on the light source driver such that, within the housing, they are oriented adjacently to the guide rails.
The light source driver thus incorporates two contact clips, which are designed to form an electrical contact between the light source driver and the light source carrier. A contact clip configured in the form of two U-brackets is specifically preferred, in order to accommodate the light source carrier between the U-brackets.
Moreover, the contact clips are arranged on the light source driver such that they are positioned in proximity to the guide rails and are oriented in the same direction as the guide rails.
By the employment of contact clips, and the arrangement thereof on the light source driver, by the insertion of the light source carrier into the base, a form-fitted connection is also formed between the light source carrier and the light source driver.
The employment of contact clips on the light source driver further leads to a type of frame, comprised of a guide rail, a contact clip and a guide rail, which permits the arrangement of the light source carrier within the housing with an exceptionally small clearance.
Accordingly, a lamp, specifically an LED lamp is proposed, comprising a lamp base as described heretofore or hereinafter, and a light source carrier for the support of a light source, wherein the light source carrier has been the inserted in a form-fitted manner by means of the mutually-opposing guide rails which are arranged in the housing, wherein the light source carrier incorporates at least two contact surfaces, arranged with a mutual clearance, which are designed for contact clips from the light source driver, to form an electrical contact between the at least one light source and one light source driver for the actuation of the at least one light source.
The light source carrier thus incorporates two contact surfaces, which are arranged on the light source carrier such that they engage with the contact clips of the light source driver. The light source carrier is thus energized by means of its contact surfaces via the contact clips of the light source driver.
Preferred further embodiments of the invention are described in greater detail in the following description of the figures. In the figures:
Preferred exemplary embodiments are described hereinafter, with reference to the figures. Identical or similar components, or components with an equivalent function are identified in the various figures by the same reference symbols, and any repeated description of these elements has been omitted, to some extent, in the interests of avoiding redundancy.
The housing 21 is formed of an electrically non-conductive material, for example by means of an injection-molding method, and incorporates, in its interior, a first guide rail 211 and a second guide rail 212.
The guide rails 211, 212 are arranged in mutual opposition in the housing 21 and are designed to accommodate a light source carrier 22 in a form-fitted manner.
To this end, the two mutually-opposing guide rails 211, 212 each incorporate a rail opening 2111, 2121, wherein the rail openings 2111, 2121 are arranged to face each other.
The rail openings 2111, 2121 in the two opposing guide rails 211, 212 are configured over the full extent of their respective guide rail here, specifically over the full length thereof. This permits the light source carrier 22 to be inserted into the housing 21 to the maximum possible depth, thereby resulting in a compact design of the lamp which incorporates the housing 21.
Additionally or alternatively, a schematically-represented limit stop 2112 is provided, with which the light source carrier 22 engages upon insertion, in order to achieve the clearly-defined insertion of the light source carrier 22. By the provision of the limit stop 2112, it can specifically be prevented that the light source carrier 22 is inserted too far or is entirely pushed out of the guide rails 211, 212. Assembly is simplified accordingly.
The housing 21 is, moreover, of symmetrical design about the axis SA, and incorporates a uniform distribution of guide rails in the housing 21. Moreover, the housing 21 and the guide rails 211, 212 are formed of one and the same electrically non-conductive material. A design of this type permits, inter alia, the manufacture of the housing 21 by the two-shell principle, wherein both shells are identical and can be manufactured by an injection-molding method, using the same template.
The housing 21 incorporates a driver receptacle 23 in the housing 21, which is designed for the at least partial accommodation of a light source driver 24 in the housing 21.
The driver receptacle 23 is thus specifically designed to retain the driver within the housing 21, or to secure or maintain the clearance of the driver within the housing 21 in a predetermined position. In the present case, spacings are provided for this purpose, although circumferential gradations or similar are also conceivable.
The housing 21 further incorporates a circumferential gradation 26, by means of which a socket 10 can be snap-fitted into the housing 21, such that the housing 21 and the socket 10 constitute a single unit. This plug-in connection is preferably configured here in a form-fitted and reversible manner and can, moreover, be executed for example by means of plug-in slots 27.
The lamp base 20 is arranged in a form-fitted manner with a socket 10 and accommodates a light source carrier 22 in a form-fitted manner.
For the form-fitted accommodation of the light source carrier 22, two mutually-opposing guide rails 211, 212 are arranged within the housing 21 of the lamp base 20.
The lamp base 20 further incorporates a light source driver 24, which is arranged in the housing 21 such that the light source carrier 22, upon the insertion thereof into the two mutually-opposing guide rails 211, 212, is substantially perpendicular to the light source driver 24.
A schematically-represented limit stop 2112 is further provided, with which the light source carrier 22 engages upon insertion, in order to achieve a clearly-defined insertion of the light source carrier 22. By the provision of the limit stop 2112, it can specifically be prevented that the light source carrier 22 is inserted too far or is entirely pushed out of the guide rails 211, 212. Assembly is simplified accordingly.
As a preferred direction of assembly, the light source carrier 22 is inserted in the direction of the arrow SR into the lamp base 20, which is already connected to the bulb. By means of the limit stop 2112, an accurate positioning of the light source carrier 22 is achieved, and any damage to the bulb by the light source carrier 22 is simultaneously prevented. Preferably, the light source driver 24 is also arranged perpendicularly within the housing 21, such that the light source driver 24 is horizontally maintained in the housing 21 by means of the driver receptacle 23.
The light source driver 24 is, moreover, both positionally and electrically arranged between the light source carrier 22 and the socket 10. The light source driver 24 by means of the driver receptacle 23, engages with the guide rails 211, 212, or is arranged with only an internal clearance to the guide rails.
The light source driver 24 further incorporates a first and a second contact clip 241, 242, which are arranged on the light source driver 24 with a mutual clearance, such that the contact clips 241, 242, within the housing 21, are oriented adjacently to the guide rails 211, 212.
For the energization of the light source 25 of the light source carrier 22, the light source carrier 22 incorporates two contact surfaces 221, 222, which are arranged with a clearance on the light source carrier 22 such that they engage with the contact clips 241, 242 of the light source driver 24.
The light source carrier 22 is thus retained in the housing by means of the guide rails 211, 212 and the contact clips 241, 242.
Preferably, the light source carrier 22 is arranged within the housing 21 such that the light source 25, specifically the LEDs, of the light source carrier 22 project from the housing 21.
The light source driver 24 incorporates two contact clips, of which only the first contact clip 241 is visible, for reasons of perspective.
The first contact clip 241 is respectively comprised here of two U-brackets 2411, 2412, which are configured with a mutual clearance and arranged on the light source driver 24, such that a light source carrier 22 can be engaged between the latter.
The light source carrier 22 itself is configured here as described heretofore or hereinafter, and specifically incorporates a light source 25, preferably at least one LED.
The light source driver 24 incorporates two contact clips, of which respectively only the first U-brackets 2411, 2421 are visible, for reasons of perspective.
The light source carrier 22 further incorporates a first and a second contact surface 221, 222, which are arranged with a mutual clearance, and encompasses the depth of the light source carrier 22 such that both sides of each contact surface 221, 222 are contacted by the U-brackets 2411, 2412 of the first contact clip 241, or by the U-brackets 2421, 2422 of the second contact clip 242.
The contact clips are configured here such that the light source carrier 22 engages with the contact clips 241, 242, and the light source carrier 22 is substantially perpendicular to the light source driver 24.
The lamp 1 comprises a socket 10 with a first pin contact 11 and a second pin contact 12, a lamp base 20 incorporating a housing 21, a light source carrier 22 and a covering 30.
The socket 10, by means of the pin contacts 11, 12, is designed for bonding with a current source, in order to energize the light source 25 of the lamp.
Preferably, the socket 10 or the lamp base 20 incorporates a ballast, specifically an electronic ballast.
The lamp base 20 is configured as described heretofore or hereinafter, specifically as represented in
The light source carrier 22 is inserted into the guide rails in a form-fitted manner.
The light source carrier 22 further comprises a plurality of LEDs which are combined to constitute a light source 25.
Energization of the light source 25, i.e. of the LEDs, in an application according to the invention, proceeds here by means of the pin contacts 11, 12 the light source driver 24, and the light source carrier 22.
To this end, the light source carrier 22 incorporates at least two contact surfaces 221, 222, arranged with a mutual clearance, which are designed, respectively by means of contact clips of the light source driver 24, to form an electrical contact between the light source 25 and the light source driver 24, for the actuation of the at least one light source 25.
The lamp 1 further incorporates a covering 30, which is designed to protect the light source or the LEDs against weathering. The covering 30 is, moreover, preferably of a light-permeable and water-resistant design and is constructed, for example, of plastic or glass.
The lamp according to the invention, specifically by means of the contact clips of the light source driver described heretofore or hereinafter, and by means of the contact surfaces of the light source carrier described heretofore or hereinafter, permits a simple, form-fitted and thus reversible plug-in principle, which specifically permits the cost-effective replacement of defective light sources, specifically by the simple replacement of the light source carrier.
Insofar as applicable, all the individual characteristics which are represented in the exemplary embodiments can be mutually combined and/or interchanged, without departing from the scope of the invention.
Number | Date | Country | Kind |
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102017116949.0 | Jul 2017 | DE | national |
This patent application is a Continuation of U.S. patent application Ser. No. 16/046,031, filed on Jul. 26, 2018, which claims priority from German Patent Application No. 102017116949.0, filed on Jul. 26, 2017. Each of these patent applications is herein incorporated by reference in its entirety.
Number | Date | Country | |
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Parent | 16046031 | Jul 2018 | US |
Child | 17709879 | US |