RU2043084C1 - Device for treating filler material with local irradiation - Google Patents

Abstract

FIELD: medical engineering; dentistry. SUBSTANCE: device has casing having light filter mounted in the end face opening and connected with light guide as well as light source with selective reflector and heat exchange control system having an additional light filter mounted inside the casing. The light filter has radiation frequency band width belonging to the working frequency range. The device also has temperature control system with heat reflector placed between the light source and the casing. The band width of the additional light filter belongs to the infrared range and is fixed in the special opening of the casing. EFFECT: enhanced reliability of filler; prevented heat losses. 1 dwg

Description

 The invention relates to dentistry and is intended for the local treatment of dental photopolymers with visible and invisible rays for the dispersed solidification of gear fillers during dental processing with the radiation being supplied through an optical fiber from an integrated light source.

 Known similar devices that perform the same function. The problem of overheating of the device during operation is solved here through the use of a low-power light source and expensive optics.

 Patents are also known for protecting such devices.

 Known devices include a housing in which a light source is located. Light radiation is transmitted through an optical connecting element, which is installed together with a rigid or flexible light guide at the end of the device, to the processing site. To cool the device, a fan mounted in it is usually used, which provides blowing of the heat-absorbing screen located inside the case.

 A device for processing filling material can be taken as a prototype, which contains a housing, at the end of which a filter is mounted that transmits radiation in the operating range, fastened with a light guide, a light source with a selective reflector installed in the housing, and a heat-regulating system in the form of an additional light filter with certain optical parameters .

 The above devices and the prototype have inherent negative properties: low reliability associated with the use of a fan motor, as well as the presence of vibration during operation; increased weight and size characteristics.

 The objective of the invention is to provide cooling of the device by radiation of a significant portion of the non-working part of the radiation spectrum in the surrounding space. The technical result of solving this problem is to increase reliability, reducing weight and dimensions.

 The essence of the invention lies in the fact that the apparatus for processing filling material by local radiation, comprising a housing, in the end opening of which there is a filter with a transmission frequency of radiation in the operating range connected to the optical fiber, and a light source with a selective reflector and a heat control system with an additional a light filter into which a heat reflector is inserted, located between the light source and the housing, and an additional filter is made with a transmission frequency radiation in the infrared range and mounted in a special hole in the housing.

 The drawing shows the proposed device, section, where the following notation: 1 housing; 2 filter, transmitting radiation in the working range of the spectrum; 3 optical fiber; 4 light source with a selective reflector; 5 heat reflector; 6 additional filter, transmitting radiation in the infrared range of the spectrum.

 The apparatus for processing localized filling material contains a housing 1, in the end opening of which a light filter 2 is installed, which passes through the optical fiber 3 the working range (400-500 nM) of the radiation spectrum of the light source with a selective reflector 4 to the irradiation site. A known technique for making a light source with a selective reflector having the necessary optical properties. In contrast to the prototype, the proposed device is equipped with a heat reflector 5 located between the light source and the housing, as well as an additional filter 6, which transmits radiation in the infrared range of the radiation spectrum and is mounted in a special opening of the housing.

The design of the heat reflector 5 is determined by the design of the light source 4 and is calculated by a known method taking into account the characteristics of the infrared range. To ensure minimal losses, two types of reflective coatings can be used:
with mirror image;
with diffuse reflection;
Mirror coating is used in the manufacture of a heat reflector from dielectric materials, such as glass or heat-resistant plastic. A metal heat reflector can be coated with materials based on magnesium oxide, providing diffuse reflection of radiation with a reflection coefficient close to unity. The location of the filter 6 in a special opening of the housing is determined on the basis of ergonomic requirements and should exclude the ingress of infrared flux both to the patient and to the doctor.

 The device can be powered by either a battery or a step-down transformer.

 The proposed device operates as follows. When power is supplied to the light source, the halogen lamp 4 emits light, the working part of the spectrum is reflected by a selective reflector and through the filter 2, which re-adjusts the working part of the spectrum by the light guide 3, enters the irradiation site. The rest of the spectrum by means of an additional filter 6 is divided into two components: visible and infrared. The visible part (about 20% of the total radiation power) as a result of multiple reflections is absorbed by the walls of the heat reflector 5 and scattered due to convection of the surrounding air. The infrared part of the spectrum (approximately 80%) passes through an additional filter 6 and is emitted into the surrounding space.

Claims (1)

 DEVICE FOR PROCESSING SEALING MATERIAL LOCAL IRRADIATION, comprising a housing, in the front opening of which there is a light filter with a transmission frequency of radiation in the operating range, connected to the light guide, and a light source with a selective reflector and a heat control system with an additional light filter installed in the housing, which differs in that the system includes a heat reflector located between the light source and the housing, and an additional filter is made with a transmission frequency of radiation in the infrared range and is mounted in a special hole in the housing.

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