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Publication numberUS3788560 A
Publication typeGrant
Publication dateJan 29, 1974
Filing dateOct 16, 1972
Priority dateOct 16, 1972
Also published asDE2349902A1
Publication numberUS 3788560 A, US 3788560A, US-A-3788560, US3788560 A, US3788560A
InventorsH Hough, J Wierzbicki
Original AssigneeGte Sylvania Inc
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Lighting fixture
US 3788560 A
An ultraviolet lighting source for curing organic coatings is disclosed herein. The high intensity lamp of the fixture is held in a temperature resistant lamp holder that allows the lamp freedom for expansion and contraction. Also, a shield is provided to protect the critical lamp seal from the high operating temperatures generated by the lamp.
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Description  (OCR text may contain errors)

United States Patent [191 Hough et al.

[ LIGHTING FIXTURE [75] Inventors: Harold L. Hough, Beverly; Julian J.

Wierzbicki, Peabody, both of Mass.

[7 3] Assignee: GTE Sylvania Incorporated [22] Filed: 'Oct. 16, 1972 21 Appl. No.2 297,940

[52] US. Cl. 240/5l.1l R, 219/347, 240/1 1.4 R [51] Int. Cl. H05b 33/02 [58] Field of Search. 240/5l.ll R, 41.35 R, 11.4 R;

[56] References Cited I UNITED STATES PATENTS 2,590,417 3/1952 Jones 219/347 x Jan. 29, 1974 Lee 240/4135 R X 3,171,945 3/1965 Meng et al 219 347 2,917,616 12 1959 Thomson 219 347 x 3,143,629 8/1964 'Appel etal. 240/51.11 R x Primary Examirier-Richard L. Moses Attorney, Agent, or Firm-Norman J. OMalley et al.

[5 7] ABSTRACT An ultraviolet lighting source for curing organic coatings is disclosed herein. The high intensity lamp of the fixture is held in a temperature resistant lamp holder that allows the lamp freedom for expansion and contraction. Also, a shield is provided to protect the critical lamp seal from the high operating temperatures generated by the lamp.

3 Claims, 4 Drawing Figures PATENTEUJANZSIQH SHEET 1 BF 3 FEGJ PATENTEB JAN 2 919 SHEET 2 0F 3 PATENTED JAN 2 919M SHEET 3 OF 3 LIGHTING FIXTURE FIELD OF THE INVENTION This invention relates in general to radiation curing and more particularly to ultraviolet irradiation sources that cure organic coatings having ultraviolet sensitive resins such as used in the printing industry.

The ultraviolet lighting source is ideal for this type of curing because the lamp and its optics can be made to cover a standard printing mill belt and because of the fixtures low profile the fixture can be placed at the critical area of curing without redesigning the printing mills.

PRIOR ART Present ultraviolet curing sources are primarily used in confined areas of automated lines, where the fixtures themselves are in proximity to the work. The lamp used in this process is of the quartz type which operates at extremely high temperatures (550C to 850C) and necessitates large blowers to protect the lamp. The lamp holders are either spring loaded or rigid. In the spring loaded holder, the springs act as electrical contacts for the lamp. In this arrangement of using spring contacts, the fixture has inherently short life due to the combination of the heat and the resin curing vapors affecting the spring contact. In the use of rigid lamp holders, early failure is also high, this being due to intense heat which expands the glass in their holders, thereby causing breakage of the lamp.

SUMMARY OF THE INVENTION In our present invention, we have designed a fixture specifically for tubular mercury arc lamps to be used as the ultraviolet source for curing UV sensitive resins which are being developed in the general printing industry. The lamp and its reflective optics are designed for use in close proximity to the work (generally within a few inches of the resin to be cured). A typical application might be the arrangement of banks of these fixtures at strategic places on the printing mills.

The fixture design is such that any length can be accommodat'ed merely by providing sufficient length fixture extrusion and adding segmented reflectors as necessary. For all length lamps, the fixture ends remain the same. The lamps themselves have a round tubular type seal and are terminated with a round ceramic end cap which is cemented to each sealed end.

The lamp when in position in the fixture is loosely retained by two heat resistant type holders, the design of which permits the lamp to be held, yet allows for free expansion and contraction. The electrical conductors of the lamp are directed to metal terminal blocks adjacent the lamp holders and thence to a power supply not shown in the drawings. A separate circuit from this power supply is directed to the safety interlocks located on the outer surface of the end caps of the fixture.

Other features incorporated in the fixture design are segmented slip-in reflectors that minimize warpage and a reflectorized lamp seal shield for lamp seal temperature protection. Withthe design of the lamp holders and the reflectorized shields the fixture can be utilized without the use of added cooling means such as blowers. As mentioned above, the safety interlocks located on the outer surface of the end caps give the fixture an added safety feature in that lamp removal cannot be made without disconnecting the safety interlocks.

Other objects, features and advantages will become apparent to those skilled in the art after reading the following specification when taken in conjunction with the accompanying drawings in which:

FIG. 1 is an elevational cross-section of a fixture showing in particular the overall disposition of the different components;

FIG. 2 is an enlarged end view of the fixture with the end plate removed;

FIG. 3 is an enlarged end elevational view showing in particular one of the lamp holders and a lamp seal shield; and

FIG. 4 is an exploded view in perspective of the view of FIG. 3.

DESCRIPTION OF PREFERRED EMBODIMENT Referring to FIG. 1, a typical fixture of our design is shown in an elevational cross section. The housing body 10 is of elongated elliptical configuration. Each end of the fixture is provided with a removable end cap 12 having safety interlocks l4 fixed thereto. Positioned at the focal point of the elliptical body and running lengthwise of the fixture is an elongated tubular lamp 16 held by lamp holders 18. The electrical connections for the lamp will be described hereinafter. A lamp seal shield 20 is positioned between the end seal portion and the main portion of the lamp. Positioned above the main portion of the lamp 16 is a series of segmented reflectors 22 slightly spaced from one another to provide room for expansion due to extensive heat of the lamp 16.

In FIGS. 2,3 and 4, the lamp holder and seal shield are more clearly shown. The lamp holder 18 in FIG. 4 comprises an upper portion 26 fixed to the housing 10 and mating removable bottom piece 28. The upper portion 26 is provided with a V-notch 30 and the bottom piece 28 has a wedge 32 that mates to the V-notch 30, the center portion of which is cut into a smaller V- notch. When the two pieces 26 and 28 are mated together, a diamond shaped relief slot 36 is developed, this can be more clearly seen in FIG. 2.

Referring back to FIG. 1, the lamp 16 is provided with tubular seals 38 at each end thereof and a pair of ceramic sleeves 40 are cemented to each seal. As seen in FIGS. 2 and 4, when the bottom piece 28 of the lamp holder 18 is secured .to the upper portion 26 by suitable fasteners 42 the ceramic sleeves 40 will be loosely retained within the diamond relief slot 36. Due to the extreme operating temperatures of the lamp of this particular application, precaution must be taken to protect the tubular seals 38 of the lamp 16. This is accomplished by providing a lamp seal shield 20 at each end of the lamp, located approximately at the junction of the sealed end and the main envelope portion of the lamp. The shield 20 conforms to the general shape of the elliptical fixture body 10 and has a slot 50 that extends along the major line of axis of the ellipse. This slot is slightly larger than the lamps tubular seal 38 and provides clearance for this portion when the lamp is inserted in the lamp holder. After the lamp is placed in the lamp holder the remaining open end of the slot is covered by a door 52 that is pivoted at 53 and is secured in place by engagement of an adjustable screw 54 in arcuate slot 56 on door 52. When door 52 is in place the slot 50 is completely covered, thus excessive heat from the lamp envelope is shielded from the tubular seal 38. Air ventilating ducts are provided in the reflectors 22 and similar ducts 82 are located in the housing to allow the heat from the lamp to be dissipated from the interior of the housing.

Although the lamp holders, with their diamond shaped slots 36, provide for the expansion and contraction of the glass which occurs during operation and cooling off periods, the lamp holders 18 are provided with retainers 70 (FIGS. 2 and 4) fixed to the outer portions thereof to limit horizontal movement of the lamp. Lamp lead-in wires 72 (FIGS. 1 and 3) extend through terminal blocks 74 and are directed to a power supply unit, not shown in the drawings. The safety interlocks 14 have a separate circuit also coming from the power supply. Both sets of wires are carried from one end of the fixture to the other end by conduit 76.

What we claim is:

l. A lighting fixture for the rapid curing of UV curable resins comprising: an elongated elliptical curved housing; end caps detachably secured to the ends of said housing; safety interlocks secured to said end caps; a series of separate slip-in reflectors positioned in said housing, the reflectors being spaced apart sufficiently to permit expansion thereof during normal operation; a lamp holder located at each end of said housing; an elongated tubular UV emitting arc discharge lamp disposed at the focal point of the elliptical housing and having tubular seals at its ends, said tubular seals being loosely held by said holders so as to permit longitudinal expansion of the lamp during operation; a ceramic sleeve fastened to each tubular seal of the lamp; a retainer fastened to each lamp holder, said retainer having an opening larger than the tubular seals but smaller than the ceramicsleeve in order to limit longitudinal movement of the lamp; and a shield positioned between each of said tubular seals and the main portion of the lamp.

2. The fixture according to claim 1 wherein each of said lamp holders comprises an upper portion fixed to said housing and a detachable bottom mating portion secured to said upper portion, said upper portion being provided with a V-notched relief and said lower portion being provided with a wedge mating to the V-notch relief of said upper portion, said wedge of said lower portion being provided with a V-notch smaller than the V- notch in said' upper portion whereby a diamond shaped relief slot is established when said lower portion is mated to said upper portion for receiving said tubular seals and thereby supporting said lamp.

3. The fixture according to claim 1 wherein said shield is provided with a slot larger than said tubular lamp seal ends and a door pivotally mounted on said shield and positioned to cover a portion of said slot in said shield.

Patent Citations
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US2590417 *Sep 18, 1948Mar 25, 1952Wiegand Co Edwin LElectric heating
US2917616 *Apr 4, 1956Dec 15, 1959Wiegand Co Edwin LElectric heating devices
US3143629 *Mar 5, 1962Aug 4, 1964N J Thermex Company IncHeating lamp
US3171945 *Apr 16, 1962Mar 2, 1965Electro ThermRadiant heater
US3270194 *Jun 24, 1964Aug 30, 1966Minnesota Mining & MfgLight exposure apparatus
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3906217 *Mar 14, 1974Sep 16, 1975Ppg Industries IncLamp mounting bracket
US4030104 *Nov 12, 1975Jun 14, 1977Xerox CorporationThermo-magnetic image transfer apparatus
US4312028 *Oct 12, 1979Jan 19, 1982Martin HamacherShockproof fluorescent light fixture
US4699497 *May 21, 1986Oct 13, 1987Xerox CorporationIllumination lamp assembly for a document scan system
US4918582 *Mar 14, 1988Apr 17, 1990F.L. Industries, Inc.Mating terminal and socket assembly
US4943897 *Jul 7, 1989Jul 24, 1990U.S. Philips CorporationAssembly of a light housing and an electric lamp
US5060125 *Mar 20, 1991Oct 22, 1991Cmb Foodcan PlcLamp assembly
US5142795 *Oct 29, 1990Sep 1, 1992Abb Process Automation Inc.Infra-red lamp module
US6426486 *Jun 16, 2000Jul 30, 2002Judco Manufacturing, IncorporatedOptical apparatus and method for shrinking heat shrink tubing, fusing wires and solder and unsolder packaged electronic components
US7498538Jul 20, 2007Mar 3, 2009Judco Manufacturing, Inc.Sliding contact switch
US7880107Oct 12, 2007Feb 1, 2011Judco Manufacturing, Inc.Momentary push button switch
US9050831 *Jun 28, 2013Jun 9, 2015Aberystwyth UniversityInk curing apparatus with lamp housing and movable locking member
US9592531 *Jul 1, 2015Mar 14, 2017Gew (Ec) LimitedInk curing apparatus
US20110008028 *Mar 27, 2009Jan 13, 2011Nichias CorporationLamp and heating device
US20140267522 *Jun 28, 2013Sep 18, 2014Gew (Ec) LimitedInk curing apparatus with lamp housing and movable locking member
US20160001321 *Jul 1, 2015Jan 7, 2016Gew (Ec) LimitedInk curing apparatus
EP0375072A1 *Dec 20, 1989Jun 27, 1990Philips Electronics N.V.Assembly of a light housing and an electric lamp
WO1997003319A1 *Jul 3, 1996Jan 30, 1997Philips Electronics N.V.Electric lamp
U.S. Classification362/217.11, 392/421, 392/424
International ClassificationF21V15/06, F21V29/00, B41F23/04, F21V19/00, F21V15/04
Cooperative ClassificationF21V15/04, B41F23/0409, F21V15/06, F21V19/008, F21V29/2206, F21V29/004
European ClassificationF21V29/22B, B41F23/04B2B, F21V15/04, F21V19/00F1, F21V15/06, F21V29/00C2