Radiant energy – Radiant energy generation and sources – With radiation modifying member
Reexamination Certificate
2001-10-12
2003-11-11
Lee, John R. (Department: 2881)
Radiant energy
Radiant energy generation and sources
With radiation modifying member
C034S278000
Reexamination Certificate
active
06646278
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention concerns an irradiating device in particular for the UV-radiation of objects such as substrates coated with a UV-curable layer, the device including a housing, a longitudinally extending irradiation source for ultra-violet and/or visible electromagnetic radiation preferably formed as a tubular shaped mercury lamp provided in the housing between a reflector and a housing opening which can be directed towards the object to be irradiated, and a cooling system for dissipation of waste heat produced by the radiation source.
2. Description of the Related Art
Devices of this type are used for initiation of photochemical reaction of irradiated objects in diverse applications, in particular for cross-linking or curing of layers, printing inks and lacquers on generally flat substrates such as printed materials, however also for acting upon contoured pieces and shaped or molded parts. Generally in the construction of printing machines frequently only a limited amount of space is available, and in rapid through-put in the printing line or, as the case may be, short cycles, it becomes necessary to work with high lamp output of up to several 10's of kW per device. Cooling systems are thus necessary and are concerned with removing at least a part of the waste heat via a circulation flow produced externally and drawn linearly through the device. Besides climatic problems in the work space on the basis of the air exchange and the limited cooling ability, there are also difficulties in the hardening of UV-cross linkable photo-polymerizable materials since oxygen in the irradiation zone leads to an inhibitation of the free radical initiated chain polymerization. In this context, it has already been proposed to use a UV-transmissive quartz plate in the illumination zone to separate the object from the cooling stream channeled through the apparatus, and to produce an oxygen reduced atmosphere in the area of the object. Besides the substantial construction costs, it has been found to be of disadvantage that soiling and absorption problems occur in the quartz plate, and the separation between illumination source and object is disproportionately increased.
SUMMARY OF THE INVENTION
Beginning therewith it is the task of the invention to improve a device of the above already described type in such a manner, that a simplified and compact construction is made possible, the environment is not negatively impacted by the operation thereof, and numerous employment opportunities are opened in particular for UV-curing.
The invention is based upon the idea of producing substantially self-sufficient modular units or modules, such that the cooling gas stream is produced and guided within the device housing. In accordance therewith it is proposed that the cooling system has a cooling circuit arranged within the housing for circulation-cooling of the radiation source via a positive-force cooling gas stream. Therewith a space-saving compact construction is achieved without requiring a supply and removal channel and without negative impact on the environmental atmosphere. The device can, as a result of its “self contained cooling”, also be employed in conditions of high environmental temperature, wherein advantages are particularly seen in the case of combination of IR-drying and UV-cross linking. Further, there is essentially no gas exchange between the gas cooling circulation stream and the radiation zone, so that little dust is stirred up, which is of advantage in the case of wet layers or coatings, or in workspaces which are to be maintained dust-free.
Preferably the cooling circulation flow includes a blower provided within the housing for producing the cooling gas stream. Therein an even and proportional cooling commensurate to the amount of warmth produced can be realized thereby, that the blower comprises a fan of which the suction side faces the longitudinal side of the radiation source. With respect to a modular device construction, it is of advantage, when the blower is comprised of multiple fans provided distributed along the length of the radiation source, preferably radial fans.
In order to be able to conform the cooling capacity of the respective designed devices to the operating conditions it is of advantage when the volumetric throughput of the blowers can be adjusted in accordance with the detected signal of a temperature sensor provided within the housing, and preferably by automatically regulating the speed of rotation of the fans.
An optimal, high volume circulation stream can advantageously be achieved thereby, that the cooling gas stream circulates essentially perpendicular to the longitudinal direction of the radiation source and is conducted spatially extending over the length thereof.
According to a further preferred embodiment of the invention the cooling circulation flow exhibits a casing space limited or bounded towards the outside by the housing wall and acted upon by blower pressure. By this means any possible leakages do not have negative consequences. A further improvement in this respect can be achieved thereby, that the cooling circulation flow includes a suction space connected to the suction side of the blower, with which the wall, in comparison to the housing wall provided on the pressure side of the blower, defines a return flow channel for the cooling gas. Therewith it is also possible to maintain large surface area laminar flow conditions during the gas return guidance through the radiation zone.
An advantageous embodiment with regard to construction envisions that the suction space is formed by a box-like housing insert, whereby the housing insert longitudinally covers over the radiation source in the manner of cowling or covering and faces the radiation opening of the housing opening. Therein it is advantageous, for the guidance of the intended flow, when the housing insert on its end surface opposite the radiation opening exhibits at least one outlet in communication with the suction side of a blower preferably formed as a radial fan.
For a device integrated re-cooling of the cooling gas stream, it is proposed that a heat exchanger with cooling means, preferably cooling water, is provided in the cooling circulation flow path. A flexible device construction with respect to the construction length is achieved thereby, that the heat exchanger is formed of multiple heat exchanger modules arranged adjacent to each other in the longitudinal direction of the radiation source.
Ozone as well as detrimental substances, in particular foreign substances evaporating from the object, can be eliminated thereby, that an active carbon filter and optionally a dust filter are provided in the cooling circulation flow which are flowed through by the cooling gas stream. Therein it is of further of advantage when the radiation source, the reflector, the heat exchanger and the active carbon filter are provided in the suction chamber to be flowed through sequentially.
According to a particularly advantageous embodiment of the invention it is envisioned that the cooling circulation flow contains an inert gas as cooling gas which is chemically reaction poor or reaction inert in the radiation conditions, so that even with materials which are difficult to cure or harden optional reaction conditions can be created. Therein the cooling circulation stream can contain oxygen-reduced air or nitrogen or carbon dioxide as cooling gas, and can preferably be filled with cooling gas with a housing connection in communication with the suction chamber. To prevent entry of foreign gas it is proposed that the cooling gas is maintained in elevated pressure relative to the ambient atmosphere over the entire cooling circulation stream. A further improvement is achieved thereby, that the radiation zone between the edge of the housing opening and the object passing thereby is protected against entry of environmental air by a barrier device. For maintaining the above discussed operating conditions an oxygen sensor designed for determining the oxygen
Ebinger Klaus
Fuchs Gunter
Jung Joachim
Schwarz Bernd
Weiss Gustav
IST Metz GmbH
Kalivoda Christopher M.
Lee John R.
Pendorf & Cutliff
LandOfFree
Irradiating device does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Irradiating device, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Irradiating device will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3184332