RU70123U1 - GLASSES MEDICAL - Google Patents

Abstract

The utility model relates to the field of medicine, and more particularly to ophthalmology, and can be used in the treatment of ophthalmic diseases. Medical glasses contain darkened glasses with reflectors built into them. Emitters are mounted in the reflectors, connected by means of connecting electric wires to the power supply with a control key. The power supply unit with the control key and connecting electrical wires connected to them is mounted directly on the darkened glasses in their central part and is closed by a rigid casing fixed to the reflectors with a removable cover, and the control key is made in the form of a control button protruding from the casing, located so that when wearing glasses, it is located strictly above the nose of the patient. Using the proposed utility model increases the reliability of the design, because all connecting electrical wires and the power supply with a control key are closed by a common rigid casing and there are no mechanical influences on the connecting electrical wires i.e. their abrasion is absent. In addition, reducing the length of the connecting electrical wires by 15-20 times and the use of a more miniature battery can reduce the weight of the product by about 3 times. The fasteners of the reflectors protruding above the outer surface of the glasses are closed by a rigid casing, which improves the aesthetic properties of the glasses by bringing them closer to the traditional form of human perception of glasses. Due to the location of the control button exactly in the middle between the reflectors, i.e. above the nose of the patient (with glasses worn), it becomes easily found in the dark, which makes it easy to turn the glasses on and off, i.e. The ergonomic properties of the proposed glasses are improved.

Description

The utility model relates to the field of medicine, and more particularly to ophthalmology, and can be used in the treatment of ophthalmic diseases.

There are various devices for the treatment of ophthalmic diseases containing complex control systems and exposure to the patient’s eyes, for example, “Training Glasses” (patent RU 2270467 C1 IPC G02C 7/10; A61F 9/02) containing a frame and lenses made in the form of liquid crystal screens connected to the microchip, as well as a light sensor, a range finder and a sensor of the spectral composition of light. Such systems require special power supplies and controls that clutter and complicate the device, reducing its mobility.

The closest analogue to the proposed utility model is the Eye-Medius glasses developed by Professor O.P. Pankov for the treatment of eye diseases according to the method protected by patent RU 2280425 C1 IPC A61F 9/00. The portable modification of Eye-Medius glasses is described in the book “... I see again!” Series: 21st Century Medicine, M., 10/26/2004 Edition of Pankov Medius LLC.

Glasses are a device in the form of darkened glasses with built-in mirror reflectors, in each of which emitters are mounted. A power supply unit containing rechargeable batteries and a control key is placed in a separate housing and is connected to the emitters by flexible long stranded wires.

The specified device has significant disadvantages. Due to the use of an extended and not rigidly fixed multicore connecting cable, the cable bends at the points of contact with the power supply unit and radiators and, as a result, its abrasion (especially when children are patients), which reduces reliability

devices in general. Placing the batteries and the control key in a separate case and connecting them to the emitters with flexible stranded long wires clutters the device and worsens its mass-dimensional, ergonomic and aesthetic characteristics. In addition, the inconvenience of turning the device on and off when wearing darkened glasses is worn, and the aesthetic perception of the glasses is significantly impaired due to the reflector fasteners protruding on their outer side.

The technical problem in the development of a utility model is to increase the reliability of the design, as well as improving the mass-dimensional, ergonomic and aesthetic characteristics of the device.

To solve this problem, medical glasses contain darkened glasses with reflectors built into them, into which emitters are mounted, connected by means of connecting electrical wires to a power supply unit and control key installed in a separate case, and the power supply unit with a control key and connecting electrical wires connected to them mounted directly on the darkened glasses in their central part and closed by a rigid casing fixed to reflectors with a removable cover, and the control key The lens is made in the form of a control button protruding from the casing, located so that when wearing glasses, it is located strictly above the nose bridge of the patient.

Figure 1 shows the glasses "Eye Medius" (photograph of the prototype).

Figure 2 shows medical glasses (model of the proposed design).

Figure 3 shows a hard casing with a removable cover and a control button (model)

Figure 4 shows the design of medical glasses according to the proposed utility model.

Medical glasses, according to the claimed formula, contain

darkened glasses - 1, located on them, opposite the patient's eyes, reflectors - 2, radiators inserted into the reflectors - 3, fasteners (nuts) - 4, power supply - 5 and control button - 6, connecting electric wires - 7, hard casing - 8 and a removable cover - 9.

Medical glasses function as follows.

When you press the control button 6, a pulse is applied to the power supply 5, from which the signals through the connecting electrical wires 7 are supplied to the emitters 3. The treatment process begins. When it ends, pressing the control button again turns off the emitters. To replace the battery, remove the cover 8.

Using the proposed utility model increases the reliability of the product, because all connecting electrical wires and the power supply with a control key are closed by a common rigid casing and there are no mechanical influences on the connecting electrical wires i.e. their abrasion is absent. In addition, reducing the length of the connecting electrical wires by 15-20 times and the use of a more miniature battery can reduce the weight of the product by about 3 times. The fasteners of the reflectors protruding above the outer surface of the glasses are closed by a rigid casing, which improves the aesthetic properties of the glasses by bringing them closer to the traditional form of human perception of glasses. Due to the location of the control button exactly in the middle between the reflectors, i.e. above the nose of the patient (with glasses on), it becomes easily found in the dark, which makes it easy to turn the glasses on and off, i.e. The ergonomic properties of the proposed glasses are improved.

Claims (1)

Medical glasses contain darkened glasses with reflectors built into them, into which emitters are mounted, connected by means of connecting electrical wires to a power supply unit and control key installed in a separate housing, characterized in that the power supply unit with a control key and connected electrical wires are installed directly on the darkened glasses in their central part and closed by a rigid casing fixed to the reflectors with a removable cover, and the control key is made in Idea of a control button protruding from the casing, located so that when wearing glasses, it is located strictly above the nose bridge of the patient.