RU164486U1 - SEALED LED DEVICE - Google Patents

Abstract

1. An LED device including a pacifier with an optically transparent plastic container and an optoelectronic LED unit, characterized in that the optoelectronic LED unit with a micro switch is placed inside an optically transparent plastic container with a thin-walled plastic cover that can be bent tightly welded to the end of the container, pressing from the outside 2. The LED device according to claim 1, characterized in that by pressing the thin-walled plastic cover from the outside, a micro-switch of the optoelectronic LED unit inside the sealed, optically transparent, plastic container is turned on.

Description

The utility model relates to medical equipment, namely to phototherapeutic devices in which LED radiation sources are used. The optical radiation of LED light sources is widely used for therapeutic purposes [1]. On their basis, modern compact, autonomous phototherapeutic devices have been developed [2, 3, 4, 5]. Using these devices, a phototherapy was developed for acute respiratory viral infections (ARVI) and ENT diseases [6]. Patent RU 2260459 C, [6] describes a method for treating acute respiratory viral infections using optical irradiation of the oral mucosa and pharynx in the spectral range (410-480) nm, at a dose of 0.04 J for newborns and young children and at a dose of 0.04 J per kilogram of body weight for middle-aged, older and adult children. During the day spend 4 radiation sessions; the course of treatment in this case is from 4 to 20 radiation sessions, depending on the severity of the disease. For the treatment of newborns and young children using phototherapeutic devices described in [2, 3, 4, 5] The closest prototype of this utility model is the device described in [5].

A light-emitting device is described in [5]: “... comprising a light source connected to an electronic control unit, which is placed in a transparent plastic container, and the space around the electronic control unit and the light source in this container is filled with an optically transparent dielectric compound for tightness. The part of the container placed in front of the light source and filled with an optically transparent compound is made in the form of a surface that provides a change in the shape of the emitted light beam. " Then, this container is inserted into the body of a standard soother pacifier.

The device is turned on as described in [2]. The device is inserted into the baby’s mouth, then touched externally to the body of the nipples with a permanent magnet. Under the influence of a magnetic field, a sealed contact is activated, which closes the power circuit of the microcontroller. The microcontroller includes a light emitting diode for a certain period of time [2].

A disadvantage of the closest prototype is an increase in the total mass of the pacifier by filling the container with silicone compound. In addition, the degradation of the silicone compound can lead to the formation of small gas bubbles in its volume, which will uncontrollably change the form of the emitted light beam. Changing the type of emitted light beam is currently achieved by selecting the appropriate type of light emitting diode. It is known that a wide range of industrial light-emitting diodes allows you to choose light sources with any spectral range of radiation, with any kind of light beam and any intensity [7]. The inventive utility model is free from these shortcomings.

The technical task of the utility model is to create a simple, easy and reliable phototherapeutic device, with which you can effectively irradiate the light of the pharynx and oral cavity of a young child.

The proposed technical solution consists in placing the LED optoelectronic unit inside a sealed, sealed, optically transparent plastic container and replacing the sealed contact with a microswitch. In FIG. 1 shows a phototherapeutic device for irradiating the light of the pharynx and oral cavity of a young child. An optoelectronic LED unit (2) is inserted into the body of the pacifier (1), which is placed in an optically transparent, thin-walled, plastic container (3). The tightness of the container (3) is provided with a thin-walled plastic cover (4) welded to the container (3) along its end circle. On the optoelectronic unit (2), close to the inner surface of the plastic cover (4), the microswitch button (5) is installed. The body of the pacifier (1) is closed with a silicone lid (6) with a push rod (7); while the pusher (7), being in close proximity to the outer surface of the thin-walled plastic cover (4) of the container (3), does not touch the surface of the cover (4). The phototherapeutic device operates as follows: the optoelectronic unit (2) is turned on by pressing a silicone cover (6) with a pusher boss (7); the pusher (7), resting against the outer surface of the thin-walled plastic cover (4), slightly deforms it. The cover (4), bending under the action of the force applied to the push rod (7), transfers the force to the button of the microswitch (5). The microswitch (5) closes the power circuit of the microcontroller of the optoelectronic unit (2); the microcontroller includes a light emitting diode for a certain period of time. After this time, the light emitting diode is turned off, and the optoelectronic unit (2) goes into standby mode.

To turn on the phototherapeutic device again, it is necessary to press the silicone cover (6) of the pacifier-soother case (1) again.

The microcontroller of the optoelectronic unit (2) is programmed so that the light-emitting diode is turned on with some time delay relative to the moment of pressing the silicone cover (6). This time interval is necessary in order to insert a pacifier in the baby's mouth, where then the pharynx is irradiated. In addition, in order to protect against spontaneous, accidental switching on of the device, the microcontroller is programmed for a specific algorithm for pressing the microswitch button (5), for example, two or three clicks must be made. The low supply voltage of pollutants and the complete tightness of the optoelectronic unit (2) in a plastic container (3) ensures the complete safety of the phototherapeutic LED device.

References.

[1] V.I. Karandashov, E.B. Petukhov, B.C. Zrodnikov “Quantum Therapy”, A manual for students of the postgraduate professional education system for doctors, Moscow, Medicine, 2004. [2] RU 28035 U1

[3] TU 9444-003-18898190-2003 "LED nipple device for short-term irradiation of the oral cavity and larynx with a spectrum of blue light in young children for the prevention and treatment of mild and moderate acute respiratory diseases U-Ssd" Doctor Light "complete with magnetic key card. " Organization-developer 000 "Search TP", Moscow

[4] RU 146971 U1

[5] RU 46 666 U1

[6] RU 2260459 C1

[7] N. Radomsky “Comparative analysis of products of leading manufacturers of white LEDs”, Semiconductor lighting technology, 2010, No. 4

Claims (2)

1. An LED device including a pacifier with an optically transparent plastic container and an optoelectronic LED unit, characterized in that the optoelectronic LED unit with a micro switch is placed inside an optically transparent plastic container with a thin-walled plastic cover that can be bent tightly welded to the end of the container, pressing from the outside. 2. The LED device according to claim 1, characterized in that by pressing the thin-walled plastic cover from the outside, a micro-switch of the optoelectronic LED block inside the sealed, optically transparent, plastic container is turned on.

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