CA2387665A1 - A light hardening device and a light source suitable for use in a light hardening device - Google Patents

Abstract

A light hardening device is provided and includes a light source having a plurality of LEDs supplied by an electrical energy source, and a cooling device arranged upstream of the light source and operable to cool the light hardening device. The LED arrangement is disposed on a rear surface of a cooling body and the light hardening device has a connection in the manner of a halogen glow lamp. Also, a light source is provided having a plurality of LEDs, a cooling body on which the LEDs are mounted, and a connector element and an overall exterior geometry, each of which corresponds to the respective connector element and overall exterior geometry of a conventional reflecting halogen glow lamp having a rated voltage of 12 volts.

Description

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A LIGHT HARDENING DEVICE AND A LIGHT SOURCE SUITABLE
FOR USE IN A LIGHT HARDENING DEVICE
Background of the Invention The present invention relates to a light hardening device and a light source suitable for use in a light hardening device.
A conventional light hardening device is disclosed, for example, in U.S. Patent No. 5,420,768. This conventional device includes a plurality of light diodes mounted on a common base body. The light emitted by .the tight diodes is conducted to a light guide and can be used, for.
example, for the light hardening of suitable polymerizable masses which are deployed, for example, in the dental practice.
It is further conventionally known to provide a cooling arrangement for the base body on which the light diodes are mounted.
It has already been proposed to use a cooling body as the base body, whereby, for example, reference is made to German Patent Application No. 101 04 579. In accordance with the arrangement disclosed therein, a cooling body is provided which has numerous LEDs mounted on its base surface. The cooling body is encircled by ribbed elements and the light passing therefrom is conducted to a light guide, whereby a portion of the light exits after first being reflected by the ribbed elements which are arranged in front of the light guide and configured in opposition thereto.
i ~ i.~~ ; ~~ i i r The just described arrangement offers a basic good cooling of the LED arrangement.
To be sure, if for the purpose of achieving a maximum light output, the base surface of the cooling body is provided with a plurality of closely adjacent LED chips, then the cooling body becomes too hot in connection with an intensive outer cooling as a consequence of which, in accordance with the heretofore described conventional arrangement, a pre-determined distance between the LED chips must be maintained. The free surface surrounded by the chips serves at the same time as a reflective surface which reflects the light again which has been reflected from the mirrored inner counter cone (which has a geometry corresponding to that of the front ribbed element body) and the light is ultimately guided to the light guide.
This conventional approach has led, surprisingly, to the circumstance that exactly at the front ribbed element body, the ribbed element body is substantially heated so that, in fact, a water cooling arrangement has been proposed. A water cooling arrangement can, indeed, substantially improve the cooling effect, but such an arrangement increases the weight of the light hardening device to an extent that the device is too heavy for suitable hand deployment.
Summary of the Present Invention The present invention offers a solution to the challenge of .. , ,:. i;.~~iin.'~ .. A!

providing a light hardening device as well as a light source which improves the light working efficiency - that is, the relationship or ratio - between the light pertormance given thereby and the heat or warmth given off by the device.
The arrangement of the present invention offers, surprisingly, the possibility to improve the efficiency of the device despite a reduction in the base surface which is available for receiving thereon the LED chips.
By the arrangement of the LED chips on the rear surface, the light guide is disposed in direct neighboring n:lationship thereto and the light can be irradiated thereonto by the LED chips. The cooling body preferably expands from the rear surface outwardly towards its other end so that the mass and surtace available for heat transfer is, in comparison to the cross-section of the rearsurtace, drastically enlarged. In accordance with the present invention, it is particularly advantageous that, through the arrangement of the LED-chips on the rear surface - that is, immediately neighboring the light guide - there is not a need to provide reflective surfaces. In the known approaches in which the LED chips an: mounted on the cooling body, the light is, to a large extent, conducted onto reflective surfaces, is reflected thereby, and, after varying multiple further reflections, eventually is guided to the light guide. Evaluations in connection with the understanding of the conventional approaches have shown that the reflecting activity not only reduces the light efficiency, but r.. , j ~ t ~ ibor6~~- r d~ ~ I

also increases considerably the heat or warmth which is generated and which must then necessarily be transferred or guided away.
In accordance with the present invention, it is provided, in contrast, to directly irradiate the light guide in a reflection free manner. The heat shed or given off by the LSD chips is at the same time also emitted onto the light guide so that, in accordance with the present invention, the heat radiation can be deployed for polymerizable masses as well.
In accordance with the present invention, it is provided that the multiple LED arrangement gives off heat in the manner of a "hotter mark"
approach to the light hardening apparatus. Through the distribution of heat over the relatively large surface area of the conically shaped cooling body, it is ensured that the light hardening device of the present invention is, in total; not heated too severely.
Additionally, the light hardening device of the present invention, in offering a particularly high light output, makes possible a rapid true hardening of the hardenable mass. The hardening time can be reduced, for example in contrast to that of a hand deployable halogen glow lamp, by one-half. By means of the shortened hardening time, the heat capacity of the cooling body also plays a role, on the other hand, to effect a reduction in the temperature level. This means, in practical use, that during the hardening time the increase in temperature exteriorly of the light hardening device is not noticeable and that the cooling apparatus a 6 ~~~ia . .. I I

undertakes, as well, a cooling function following the conclusion of the hardening process so that the temperature, when regarded over time, is - graduated or smoothed.
In accordance with the present invention, it is nonetheless particularly advantageous that the LED arrangement in combination with the cooling body can be deployed, as well, in substitution for the reflecting halogen glow lamp of a hand deployed light hardening device. The device of the present invention permits a substantial increase in the light perfom~ance or output and the life or length of operation of the device and, thereby, as well, the reliability of the light hardening device is automatically increased. It is now possible to avoid the heretofore problematic hardening process which could be interrupted by the burning through of a glow lamp creating a situation in which patients having a partially hardened filling or the like have had to wait. Heretofore, in order to avoid such unfavorable situations in which a further hardening of a partially hardened filling or other dental restoration piece is no longer possible, it has been necessary to deploy two light hardening devices in the dental practice so that, in the event of a failure of the first light hardening device or the.reaching of the end of its operational availability, the second light hardening device could be deployed. In accordance with the present invention, the need to deploy two light hardening devices is now eliminated in that the LED arrangement has a drastically increased s w ~t irnid:. a s1 life cycle and a complete failure or falling out is, in practice, completely foreclosed. The reason for this lies in the fact that the multiple arrangement of LED chips ensures that if a single chip falls out or fails, the light output or performance is reduced by, for example, 5% and this reduction in light output can be compensated for by an increased hardening time.
, It is to be understood that the number of LED chips can be accommodated to a wide range of requirements. In connection with round socket elements for the light guide rod; an arrangement of 5 x 5 LED chips, for example, can be specified so that, in total, 25 chips are available or the corners chips can be omitted so that in total 21 chips are available. Preferably, the chips are arranged in the closest possible arrangement with one another and in immediate neighboring proximity to the.entry of the light guide rod.
In accordance with the present invention, it is particularly advantageous that commercially available light guide devices need no further modification to be deployed as a light hardening apparatus or device in connection with the present invention; or to be provided with the light source of the present invention in substitution for the reflecting halogen glow lamp. In this manner, the cooling body preferably includes two electric contact rods or plug elements on its back end which correspond to the contact rods of a halogen glow lamp. The cooling i ~ i~il.. ;i ~ i process follows in the manner of a conventional halogen glow lamp cooling process by contact with the ribbed element bodies which encircle the halogen glow lamp. Preferably, the two ribbed element bodies are so firmly connected to one another as to ensure a secure arrangement so that the shedding or conducting away of the heat or warmth is assured.
Additionally, if a water cooling arrangement of the ribbed element bodies is to be factored in, so that the ribs are arranged in an overlapping aligned manner, it is preferable that an air cooling arrangement with a forced air element is provided which can thus lead to weight saving advantages.
It is additionally particularly advantageous that the temperature management of a commercially available light hardening device can be further used without modification. Typically, a forced air element or component is actuated as soon as the temperature exceeds a predetermined threshold value. Due to the improved working efficiency of the light source of the present invention, a reduced heat or thermal buildup occurs so that there is a corresponding prolongation of the time until the forced air element must be actuated.
The light hardening device and light source of the present invention are suitable as well for main voltage supply as well as for supply by means of a battery. Due to the substantially high working efficiency of the device for the light source, the life of the battery is extended.

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In accordance with the present invention, it is particularly advantageous if the LED arrangement of chips is comprised of at least two different types of chips whose emission maximum are at different wave lengths. In this connection, the particular features of, a two catalyzer system can be taken into account.
In an advantageous embodiment of the light hardening device of the present invention, it is further provided that the cooling body is configured in a hollow fashion and a control device is disposed in the interior of the cooling device for receiving thereon the LED chips. By a corresponding modification ofthe software or, alternatively, the hardware, of a hand device, it is also possible to sequentially actuate the two LED
chip portions even if only two energy supply contacts are provided. In this connection, an impulse control can, for example, be provided, which is integrated with the control device disposed in the cooling body.
It is to be understood that any suitable desired modifications of the light hardening device or light source of the present invention are possible without going beyond the scope of the present invention. Thus, the cooling body can, as needed, also be configured as the base cooling body which can be connectable via corresponding adapters with the ribbed element bodies to ensure a good conducting away of the heat. It is also possible to improve the resistance to heat transfer between the cooling body and the ribbed element body by insertion of a conventional s .; ;-~~~~~ w .. al ~

heat conducting paste.
Brief Description of the Drawings The object and advantages of the present invention will appear more clearly from the following specification in conjunction with the accompanying drawings, in which:
Fig. 1 is a schematic side view of one embodiment of the light hardening device of the present invention, whereby one-half of the housing and the counter ribbed element body thereof have been omitted;
and, Fig. 2 is an enlarged perspective view of the light source of the present invention suitable for disposition in the one embodiment of the light hardening device of the present invention shown in Figure 1.
Detailed Description of the Preferred Embodiment As seen in Fig. 1, a light hardening device 10 includes a light source 12 which. is mounted between a ribbed element body 14 and a counter ribbed element body 16. In the depiction of the embodiment of the light hardening device shown in Fig. 1, the counter ribbed element body has been detached.
The two ribbed element bodies include lengthwise or longitudinal ribs arranged in a one over another aligned arrangement so that the air .. 1 i /IIPIIIrIF t k~,l conducted in an air path from the front toward the rear cools the ribs. In this connection, a forced air element is provided as a cooling element 18 which is arranged behind the ribbed element 14.
The counter ribbed element body 16 includes a connection for a light guide element 20 which extends, in a conventional manner, in a forward direction toward the light guide rod. An LED arrangement 22 is disposed immediately adjacent the entry of the light guide element 20 on a rear surface 24 of a cooling body 26. The disposal or mounting of the LED chips in a conventional manner by, for example, silver brazing or the like, leads to a good heat conducting connection. The rear surface 24 has a cross-section which is merely somewhat greater than the cross-section of the light guide rod and, in any event, is substantially smaller than the maximum cross-section of the cooling body 26 by, for example, a factor of 5 to 10.
The cooling body 24 is, in the embodiment illustrated in Fig. 1, configured substantially sonically and includes a sleeve surface 28 whose configuration is acxommodated to, or corresponds to, the configuration or geometry of the inner surface of the counter ribbed element body 16.
From a region of the maximum diameter 30 of the cooling body 26, the cooling body extends rearwardly within the ribbed element body 14 although this is not shown in Figure 1. From there, the cooling body 26 extends in a conical or spherical manner and includes a configuration or to .- ~ i -i -:.,~+~x~ i : ~ ;.

shape which corresponds to that of the outer configuration of a commercially available halogen glow lamp. This form is chosen such that this geometry offers a minimal resistance to heat transfer relative to the ribbed element body 14.
S The cooling body 26 terminates in two plug elements or insertion rods, which are not shown, and which correspond to the plug elements of a reflecting halogen glow lamp. By this approach, and centrally by the connecting wires extending in an insulated manner through the cooling body 28, it is possible to provide the LED arrangement 22 with the stored voltage normally provided for a halogen glow lamp.
The light hardening device 10 otherwise includes conventional components such as, for example, an electranic circuit board 32 which serves as the socket connection for electrically connecting the light source 12 and, at the same time, serves as a mounting location for a 1 S push button panel 34. The light hardening device 10 further includes a conventional pistol-shaped housing 36.
As seen in Figure 2, a light source 12 of the present invention is illustrated in enlarged perspective view. The light source includes on its rear surface 24 an amangernent of 21 LED chips 38 which are arranged in close packed disposition to one another. The, light emitting cross-section is in an arcuate form and is configured in this manner by omission of the corner chips so that a reflection free guiding of the emitted light into 1 ~ ili~j;~~, + bi ~ II

the light guide element 20 is possible.
Although a plurality of 21 of the chips 38 is shown, preferably, the - arrangement is comprised of 32 chips in a 6 x 6 arrangement without, however, the provision of the corner chips. In this manner, a particularly high light output or performance is achieved and the electrical capacity of a typical light hardening device is better exploited in comparison with that of a 50 watt halogen glow lamp. With a forward voltage of 3 volts per chip, groups comprised each of 4 chips in a row can be actuated so that 8 parallel actuated chip groups are available.
As required, different LED chips can be mounted whereby an integrated control device can be disposed in the cooling body for selected actuation of the chip groups.
The specification incorporates by reference the disclosure of German priority document P 101 27 41fi.5.
The present invention is, of course, in no way restricted to the specific disclosure of the specification and drawings, but also encompasses any modifications within the scope of the appended claims.

Claims (18)

1. A light hardening device comprising:

a light source having a plurality of LEDs, the LEDs being supplied by an electrical energy source; and a cooling device arranged upstream of the light source and operable to cool the light hardening device, the LED arrangement being disposed on a rear surface of a cooling body and the light hardening device having a connection in the manner of a halogen glow lamp.

2. ~A light hardening device according to Claim 1, wherein the cooling body is substantially conically shaped and the LED arrangement is disposed on the peak of the cone.

3. ~A light hardening device according to Claim 1, wherein the cooling body includes means for circulating a cooling medium therearound.

4. ~A light hardening device according to Claire 1, wherein the light emitted from the light source reaches a light guide element in a reflection free manner.

5. ~A light hardening device according to Claim 1, wherein the cooling body is disposed in heat transfer relation to a ribbed element body, the ribbed element body having cooling ribs disposed on its outer surface.

6. A light hardening device according to Claim 1, wherein the cooling body is configured on its side turned away from the LED
arrangement in a configuration substantially conforming to the exterior form of a reflecting halogen glow lamp.

7. A light hardening device according to Claim 1, wherein the cooling body is in heat transfer relation to a ribbed element body on the side of the cooling body turned away from the LED arrangement.

8. A light hardening device according to Claim 1, wherein the cooling body comprises metal and is, especially, formed with a hollow interior.

9. A light hardening device according to Claim 1, wherein the cooling body includes passages through which extend a plurality of connections which connect with two plug elements on the side of the cooling body disposed in opposition to the light source which are configured for receipt in socket elements of a halogen glow lamp.

10. A light hardening device according to Claim 1, wherein the cooling device is configured as a forced air device.

11. A light hardening device according to Claim 1, whereby the LED.
arrangement including the cooling body is configured for a storage voltage of between 10 and 14 volts and is configured for deployment in lieu of a reflecting halogen glow lamp.

12. A light hardening device according to Claim 1, wherein the LED
arrangement emits light in the spectral region between 350 and 600 nanometers and, especially, is provided with a plurality of LEDs which emit light at an emission maximum in the range of short wave lengths and emit light at a further emission maximum at a longer wave length.

13. A light hardening device according to Claim 1, wherein the light source has a light output of more than 400 milliwatts per square centimeter, preferably, 800 milliwatts par square centimeter and, especially preferably, approximately 1,000 milliwatts per square centimeter.

14. A light hardening device according to Claim 1, wherein the cooling body is operable to receive an impulse/pause transmitter which is operable to intermittently control the LED arrangement.

15. A light hardening device according to Claim 1, wherein the cooling body including the LED arrangement is disposable in a tension fit mounting in a combination comprised of a ribbed element body and a counter ribbed element body which are connected to one another and, especially, are connected to one another by threaded means.

16. A light hardening device according to Claim 1, wherein a plurality of LEDs are arranged on the rear surface in matrix form whereby the LEDs are disposed parallel to one another and in rows for creating an operational voltage between 10 and 14 volts and the LEDs substantially fill out the rear surface.

17. A light source comprising:
a plurality of LEDs:
a cooling body on which the LEDs are mounted; and a connector element and an overall exterior geometry, each of which corresponds to the respective connector element and overall exterior geometry of a conventional reflecting halogen glow lamp having a rated voltage of 12 volts.

18. A light source according to Claim 17, wherein the light source is disposable in a light hardening device in lieu of a conventional reflecting halogen glow lamp for emitting light to effect the light hardening of a light hardenable mass.