DE202007013405U1 - Illumination device for laboratory vessels - Google Patents

Abstract

lighting device for laboratory vessels (1), comprising one flat carrier (6), whose one side with several over the light emitting diode (7) distributed in the carrier (6) is provided, characterized in that the carrier (6) in a vessel holder integrated, which is designed to be a laboratory vessel (1) Hold so that the bottom of the laboratory vessel (1) the side of the carrier provided with light-emitting diodes (7) (6) faces.

Description

The The present invention relates to a lighting device for (at least partially transparent) laboratory vessels, which a flat carrier having one side with several light emitting diodes distributed over the carrier is provided.

The Contents of laboratory vessels, in particular shake flasks, to illuminate is a common measure in biotechnical Laboratories to influence the metabolism of phototrophic cells or cell growth of photoautotrophic organisms at all first to allow.

at small-scale axenic submersing phototrophic Organisms have been used to illuminate (usually glassy) Shake flasks mostly used incubators in which the Piston from above, usually by means of fluorescent tubes, be illuminated. Because of the usually conical shape typical Shake flask conditional unfavorable light entry angle comes It thereby leads to large light losses, also leads the closure of the piston to shading effects. These and others Factors lead to an inhomogeneous light distribution. in addition comes that the light sources used are often not adjustable and the selection of light spectrums emitted by conventional light sources is quite limited. The use of colored filters to influence of the light spectrum would lead to further light losses.

The Utility Model DE 20 2006 003 878 U1 discloses a lighting device of the type mentioned, with a targeted influencing of the light spectrum is possible by selectively controllable light emitting diodes of different colors. The above-described lighting device can be mounted to illuminate laboratory vessels inside incubators. The document teaches a panel-like design, in which many small, groups of light emitting diodes carrying boards are arranged on the flat support. The lighting in the incubator is again from above.

The explained limitations in the form of light losses and shading problems are also here to buy.

all said devices for the illumination of laboratory vessels In incubators is also common that when lighting simultaneously several laboratory vessels in one incubator another Problems can occur. Depending on how the lab vessels are positioned, the light incidence of the vessel is too Vessel different. The differences are here often even larger than those already inside a vessel observable inhomogeneities. On the other hand, should individual Laboratory vessels are illuminated differently, this is in a conventionally illuminated incubator only very limited feasible.

in view of the occurring in dealing with the described prior art Problems it is the object of the present invention, the lighting of laboratory vessels, in particular shake flasks, in a way to allow which one as possible homogeneous, depending on the purpose also individually controllable light intensity ensured inside the vessel. Preferably the light spectrum should be adjustable.

According to one Aspect of the present invention achieves this object by a Lighting device solved according to claim 1. advantageous Embodiments of the invention may according to a of claims 2 to 11 be designed.

Especially Shakers and incubators can be advantageous one or more illumination devices according to the invention be equipped. The use of several inventive lighting devices on a shaker or in an incubator individual or, as required, the same lighting conditions for every single laboratory vessel. Because by the illumination of the shake flask according to the invention or other laboratory vessels individually from below Illuminated and unlit as well as different lit ones Shake flasks together on a shaker. The individual for the individual vessel allow adjustable light intensity and light spectra Test series with differently illuminated shake flasks (unlit / illuminated, different spectra, different light intensity) at the same time on a shaker or in an incubator.

The largely homogeneous light distribution in the individual laboratory vessel is realized by light emitting diodes (LEDs), which are integrated into the vessel holder and can be electronically controlled. By selecting, arranging and controlling the LEDs, an almost unlimited variety of defined lighting conditions can be implemented. Thus, for example, warm white SMD LEDs (Surface Mounted Device technology) can be used with sunlight-like spectrum. The compact design of SMD LEDs allows a very dense assembly of the PCB surface with LEDs when using multilayer printed circuit boards; Up to 75% of the surface can be covered with LEDs. It is the sunlight comparable light intensities of about 2000 uE / (m ² s) possible. For high light intensities, an active or passive, preferably backside, cooling of the printed circuit board can advantageously be provided. The electronic control It can be completely adapted to the user's wishes, for example for generating and examining certain light / dark cycles. For example, a fast control can be realized up to the kilohertz range.

invention Lighting equipment can basically be combined with all Types of conventional shakers and air-conditioned Use incubators. The particularly preferred embodiment, after which the vessel holder is a sealed enclosure in which the carrier is arranged is also suitable for use in water baths. A Waterproof enclosure also simplifies the cleaning of the entire Unit, which is particularly interesting in the S1 range.

One Another significant advantage of the invention is that the heat radiation through the light sources used is low. An accurate temperature control of the laboratory vessels even during their lighting is thus facilitated. Insbsondere the preferably provided production of the carrier a metal core circuit board (e.g., aluminum core) a good heat dissipation.

Preferably the vascular holder is constructed so that between the bottom of the vessel and the LEDs is a gap. These Measure allows a more homogeneous light distribution, a better temperature control of the vessel contents and a lower heat input of the lighting unit in the Vessel contents.

The Vessel holder can with a variety of conventional Fasteners for holding the laboratory vessels to be illuminated be equipped. In addition to circumferential and underlined edges or flat pads with non-slip inserts can depending on the vessel to be held, for example, clamps, Clamps, slings, holding pins, clamps, claws, stops, Holding arms, etc. from different, for example, after their corrosion resistance selectable materials, be provided alone and / or in combination. Preferably the vessel holder is different Vascular geometries customizable. Also a modular one Structure of the lighting device in which different or differently sized fasteners, for example via a quick release with a carrier containing Basic module are connectable, is possible.

in the Basically, the present invention is therefore suitable for use any form of laboratory vessel, provided that its underside a sufficient Lichdurchlässigkeit has.

Especially It is also advantageous that lighting devices according to the invention for all common shakers and incubators can be retrofitted.

in principle Any information described in the context of the present application or indicated variant of the invention be particularly advantageous, depending according to economic and technical conditions in individual cases. Unless otherwise stated, or in principle technically feasible, are individual features of the described embodiments interchangeable or with each other as well as with the state of the art per se known measures combinable.

following Examples will be more preferred with reference to the accompanying drawings Embodiments of the present invention in more detail explained. The drawings are purely schematic and, for the sake of clarity, not to scale Representations. In particular, conditions can the dimensions of each other of actual designs differ.

each other corresponding elements are in each of the figures, as far as Useful, provided with the same reference numerals.

1 shows a partially sectioned side view of an exemplary embodiment of a lighting device according to the invention with a filled shake flask thereon.

2 shows the in 1 illustrated lighting device in plan view without shaking flasks and without Gehäuseschließring, wherein only the position of the LEDs is indicated by the circuit board.

The culture suspension 10 containing pistons 1 becomes of three L-blocks 2 held, which on the housing 3 the lighting unit are mounted. About the screws 11 the L-pad 2 is also the Gehäuseschließring 9 with the lower part of the housing 3 screwed. The housing 3 can be made of metal depending on the corrosivity of the intended use environment selected or suitable plastic. The illustrated embodiment is easily finished as a turned part.

Under a pane 4 , which may consist of polycarbonate or glass depending on the desired properties, for example, and by means of a in the sealing groove 5 lying (not shown) O-ring is sealed, which is sealed with LEDs 7 equipped printed circuit board 6 arranged.

The lighting device has a screwed, sealing cable bushing 8th through which the cable (not shown) passes is, over which the light-emitting diodes 6 connected to a (also not shown) electronically controlled voltage source and can be controlled.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 202006003878 U1 [0004]

Claims (15)

Lighting device for laboratory vessels ( 1 ), comprising a flat carrier ( 6 ), one side of which has more than one support ( 6 ) distributed light emitting diodes ( 7 ), characterized in that the carrier ( 6 ) is integrated into a vessel holder which is designed to hold a laboratory vessel ( 1 ) so that the bottom of the laboratory vessel ( 1 ) with light-emitting diodes ( 7 ) provided side of the carrier ( 6 ) is facing. Lighting device according to claim 1, characterized in that the carrier ( 6 ) than with SMD LEDs ( 7 ) equipped printed circuit board ( 6 ) is executed. Lighting device according to claim 2, characterized in that the printed circuit board ( 6 ) has a metal core. Lighting device according to one of the preceding claims, characterized in that at least a portion of the light-emitting diodes ( 7 ) Are white light diodes. Lighting device according to one of the preceding claims, characterized in that light-emitting diodes ( 7 ) are provided at least two different emission spectra. Lighting device according to claim 5, characterized in that the light-emitting diodes ( 7 ) of a first emission spectrum separate from light emitting diodes ( 7 ) of a second emission spectrum can be controlled. Lighting device according to one of the preceding claims, characterized in that the illumination device comprises means for adjusting the intensity of the light emission of the light-emitting diodes ( 7 ) having. Illumination device according to one of the preceding claims, characterized in that the vessel holder means of distance ( 2 . 4 ) to maintain a predetermined minimum distance between the bottom of a supported laboratory vessel ( 1 ) and the with with light emitting diodes ( 7 ) provided side of the carrier ( 6 ). Lighting device according to claim 8, characterized in that the distance means ( 2 . 4 ) an at least partially transparent, spaced from the carrier disc ( 4 ). Lighting device according to one of the preceding claims, characterized in that the vessel holder a sealed housing ( 3 ) in which the carrier ( 6 ) is arranged. Lighting device according to a of the preceding claims, characterized in that the vessel holder for holding different Vessel geometries is adjustable. Shaker, characterized in that he at least one lighting device according to a of claims 1-11. Shakers according to claim 12, characterized in that it comprises at least one further illumination device according to any one of claims 1-11 having. Incubator, characterized in that it at least a lighting device according to one of the claims 1-11. Incubator according to claim 14, characterized characterized in that it comprises at least one further illumination device according to any one of claims 1-11 having.