The present disclosure relates to a rotationally adjustable lamp and to a method for manufacturing such a lamp.
Lamps today come in a variety of shapes. This is particularly true for lamps based on solid-state lighting (SSL) technology which facilitates the production of lamps having shapes that are difficult to achieve using traditional incandescent technology. While allowing for many creative and effective lighting solutions, the use of lamps not having the conventional pear-like shape requires some special considerations.
Lamps are usually designed to be screwed into a socket connecting the lamp to an electrical power source. The rotational orientation of a fully screwed-in non-rotationally symmetric lamp may have to be adjusted in order for the lamp to provide optimal illumination. For example, a substantially flat lamp may need to be aligned with a nearby wall for even diffusion of light in a space. Correct rotational positioning is of course particularly important to make the best use of directional lamps. An example of a light bulb base enabling rotational adjustment of an LED device without breaking the electrical connection is disclosed in U.S. Pat. No. 8,147,267 B2. The base has a slot for receiving a tab attached to a mounting for an LED device which can be rotated until the tab reaches an end of the slot. It is desirable that the manufacturing of rotationally adjustable lamps be cost-effective and simple. Existing manufacturing methods can be improved in these respects.
A general objective of the present disclosure is to provide an improved or alternative method for manufacturing lamps that can be rotationally adjusted without being electrically disconnected. The cost-effectiveness and simplicity of the method are aspects of particular interest.
The invention is defined by the independent claims. Embodiments are set forth in the dependent claims, the description and the drawings.
According to a first aspect, a method for producing a rotationally adjustable lamp is provided. The method comprises: molding a shell having a guiding slot; providing a base configured to receive the shell and connect to a lamp socket; inserting the shell into the base so as to enclose the guiding slot by the base; and forming in the base, when the shell is inserted into the base, a notch protruding into the guiding slot, the notch being movable along the guiding slot so as to allow for the shell to be rotated relative to the base.
This method provides for a cost-effective way to manufacture lamps that can be rotationally adjusted without being electrically disconnected. The method can be implemented using conventional tools and techniques.
The guiding slot may be arranged in a cylindrical portion of the shell, the guiding slot extending along the circumference of the cylindrical portion and perpendicular to the height of the cylindrical portion. The guiding slot may extend for about 180 degrees. The shell may have an additional guiding slot, the two guiding slots of the cylindrical portion forming a pair of oppositely arranged guiding slots on the cylindrical portion of the shell. An additional pair of oppositely arranged guiding slots may be arranged on the cylindrical portion of the shell, the two pairs of guiding slots being separated along the height of the cylindrical portion.
The shell may be injection molded. Molding the shell may comprise molding a first half and a second half of the shell. This may enable a simple, fast and cost-effective manufacturing process since the simple design of the guiding slot allows for the halves to be molded using low-cost molds without undercuts.
The method may comprise providing a carrier having at least one light source and enclosing the carrier between the first and second halves of the shell, before the shell is inserted into the base. The light source may be an SSL device. The light source may be a semiconductor light-emitting diode, an organic light-emitting diode, a polymer light-emitting diode or a laser diode. The carrier may have a perimeter including a curved portion, wherein the at least one light source is a plurality of light sources arranged along the curved portion of the perimeter on opposite sides of the carrier, and wherein each half of the shell has a flat central area surrounded by a hollow ridge extending along the curved portion of the perimeter of the carrier. The shell may comprise a joint in a plane parallel to a longitudinal axis of the lamp, the first and second halves being attached to each other along the joint.
A rotationally adjustable lamp may be manufactured by any of the alternative methods described above.
According to a second aspect, a rotationally adjustable lamp is provided. The lamp comprises a base, which is provided with a notch and configured to connect to a lamp socket, and a shell supported by the base and provided with a guiding slot. The notch protrudes into the guiding slot and is movable along the guiding slot so as to allow for the shell to be rotated relative to the base. The guiding slot may extend for about 180 degrees.
The second aspect may provide for technical effects which are identical or similar to those of the first aspect.
The shell may have four guiding slots arranged in a cylindrical portion of the shell, each one of the guiding slots extending along the circumference of the cylindrical portion and perpendicular to the height of the cylindrical portion. The four guiding slots may form a first and a second pair of oppositely arranged guiding slots, the two pairs being separated along the height of the cylindrical portion. Each one of the guiding slots may extend for about 180 degrees.
The shell may comprise a first half and a second half, the first and second halves enclosing a carrier having a plurality of light sources arranged on opposite sides of the carrier. The light source may be SSL devices, such as semiconductor light-emitting diodes, organic light-emitting diodes, polymer light-emitting diodes. The light sources may be laser diodes.
It is noted that the invention relates to all possible combinations of features recited in the claims.
The following figures are included for exemplifying purposes.
In the figures, which are not drawn to scale, similar or identical elements are indicated by the same reference numeral.
The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which currently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for thoroughness and completeness, and fully convey the scope of the invention to the skilled person.
The base 2 is configured to receive a shell 6. The shell 6 may be injection molded. The shell 6 can be made of for example a metal, a thermoplastic and/or a thermosetting polymer. The shell 6 may form a light-transmissive housing for one or more light sources, for example SSL devices. The one or more light sources may be semiconductor light-emitting diodes, organic light-emitting diodes, polymer light-emitting diodes or laser diodes. Alternatively, the shell 6 may be configured to support a housing for one or more light sources. Such a housing may be attached to the shell 6 by chemical means, such as glue, or mechanical means, such as nails, screws or clips. The shell 6 may be provided with threads so that the housing may be screwed onto the shell 6. Soldering may be used to attach the housing to the shell 6.
The shell 6 has at least one guiding slot 7a. The guiding slot 7a may be arranged in a cylindrical portion 8 of the shell 6, the cylindrical portion 8 being insertable into the base 2. The guiding slot 7a typically extends along the circumference of the cylindrical portion 8 and substantially perpendicular to the height of the cylindrical portion 8. The guiding slot 7a may extend over any angle around the cylindrical portion 8, for example about 270 degrees, about 180 degrees or about 90 degrees. The shell 6 in
The base 2 has four notches 5, each of which is arranged to protrude into a corresponding guiding slot when the shell 6 is inserted into the base 2. As is illustrated in
The first 6a and second 6b halves may be attached to one another by chemical means, such as glue, or mechanical means, such as nails, screws or clips. The first 6a and second 6b halves may be soldered together. Welding, for example ultrasonic welding, may be used to attach the first half 6a to the second half 6b. The first 6a and second halves 6b enclose the carrier 14 so that the light sources 15 are positioned inside the hollow ridge 13.
When the lamp 1 is in use, electricity is transmitted via the bottom portion 4, the driver circuitry 19 and the connections 16 to the light sources 15 which thereby emit light. The emitted light is transmitted through the shell 6, providing illumination. The notches 5 protrude into, and are movable along, the guiding slots 7a, 7b of the shell 6 so that the shell 6 is rotatable relative to the base 2.
The rotationally adjustable lamps 1 in
More than one guiding slot may be formed in the shell 6 during molding. For example, the cylindrical portion 8 may be provided with an additional guiding slot 7b. The additional guiding slot 7b may be arranged on the cylindrical portion 8 so that the two guiding slots 7a, 7b form a pair of oppositely arranged guiding slots. According to another example, the cylindrical portion 8 is provided with four guiding slots 7a, 7b, 7a′, 7b′. The four guiding slots 7a, 7b, 7a′, 7b′ may be arranged on the cylindrical portion 8 so as to form a first pair 7a, 7b and an additional pair 7a′, 7b′, the two guiding slots of each pair being oppositely arranged on the cylindrical portion 8 and the two pairs being separated along the height of the cylindrical portion 8. According to yet another example, a circular slot 11 is formed in the shell 6 during molding. Such a circular slot 11 may extend all around the cylindrical portion 8 of the shell 6.
In step S2, a base 2 is provided. The base 2 is configured to receive the shell 6 and connect to a lamp socket. Typically, the base 2 comprises threads 3 and is configured to be screwed into a lamp socket. If the shell 6 has a circular slot 11, the base 2 provided has a depression 10 to be received by the circular slot 11 when the shell 6 is inserted into the base 2. The steps S1 and S2 may of course be performed in any order.
In step S3, the shell 6 is inserted into the base 2 so that the guiding slot 7a is enclosed by the base 2. This may for example be achieved by pushing the cylindrical portion 8 in the height direction H into the base 2.
In step S4, a notch 5 is formed in the base 2. The notch 5 may be formed by pressing the base 2 inwards, i.e. toward the inserted shell 6, at a location such that the notch 5 protrudes into the guiding slot 7a and is movable along the guiding slot 7a so that the shell 6 and the base 2 are rotatable relative to each other. Note that the step S4 is performed after step S3, i.e. the notch 5 is formed after insertion of the shell 6 into the base 2. If the shell 6 has more than one guiding slot, at least one notch 5 is formed for each guiding slot.
The manufacturing method described above may comprise additional steps besides those illustrated in
The person skilled in the art realizes that the present invention by no means is limited to the preferred embodiments described above. On the contrary, many modifications and variations are possible within the scope of the appended claims. For example, the shell may have three or more pairs of guiding slots.
Additionally, variations to the disclosed embodiments can be understood and effected by the skilled person in practicing the claimed invention, from a study of the drawings, the disclosure, and the appended claims. In the claims, the word “comprising” does not exclude other elements or steps, and the indefinite article “a” or “an” does not exclude a plurality. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measured cannot be used to advantage.
Number | Date | Country | Kind |
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14177750.8 | Jul 2014 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/066223 | 7/16/2015 | WO | 00 |