RU2041676C1 - Protective glove and method of manufacturing same - Google Patents

Abstract

FIELD: medical engineering, particularly, manufacture of means of individual protection. SUBSTANCE: this protective glove is designed for safeguarding physician's hands. It includes dorsal and palmer portions and has three layers. Middle layer is made up of air-volume material based on either natural or synthetic fibers or combination of natural and synthetic fibers. Inner layer is cotton fabric and outer layer is polymer film. Method for manufacture of disclosed glove includes such steps as taking measurements to obtain anthropometric data, cutting material into components of both dorsal and palmer portions of glove integrally with finger cot and interfinger spacer and fitting all components together to make finished product. Disclosed method prescribes making this protective glove so that it has three layers and inner layer be made of cotton. Ultrasonic protection is allowed by middle layer to be made of either natural or synthetic materials or combination of natural and synthetic fibers. This method further dictates that outer layer be made of polymer film. EFFECT: more sophisticated design. 6 cl, 2 dwg, 1 tbl

Description

 The invention relates to personal protective equipment, and in particular to medical equipment, to protective devices, in particular during ultrasound diagnostics and work involving the use of ultrasound (medical procedures, a surgical ultrasonic knife, ultrasonic treatment of purulent cavities), and is intended for individual protection of the researcher’s hands from reflected ultrasound radiation.

 A known method of protecting the hands of a doctor, where according to the instructions using ordinary cotton gloves, over which rubber surgical gloves are worn.

 The most significant drawback of such gloves is that they do not delay ultrasonic radiation, which leads to harmful undesirable effects of reflected ultrasound on the skin, muscles, nerve endings of the researcher’s hand, especially during prolonged manipulations. This is due to the absence of an air gap in these gloves, while air is a significant obstacle to the passage of ultrasound.

 The purpose of the invention is the creation of a protective air screen against ultrasonic radiation, preventing the harmful effects of reflected ultrasound on the skin, muscles and nerve endings of the doctor’s hand.

 This goal is achieved by the fact that in the proposed glove create a protective screen that is capable of 99.95% reflect ultrasonic radiation. The protective screen is achieved by the fact that the back and palm parts of the glove and fingertip are three-layer. The inner layer is made of cotton fabric, the middle layer is made of air-based material based on natural, synthetic or a mixture of natural and synthetic fibers with a thickness of at least 0.25 cm, and the outer layer is made of plastic film to prevent ultrasonic paste from getting onto the cotton fabric.

 In FIG. 1 shows a glove, general view; in FIG. 2 section aa in figure 1.

 The glove is made of a three-layer material: the first (inner) 1 cotton fabric, the second 2 air-volume synthetic or natural or mixed natural and synthetic fabric, the third 3 plastic film that allows you to work with oily and pasty substances. At least two media interfaces arise between the layers, which also increases the degree of protection against ultrasound.

 PRI me R 1. The back and palms of the glove of the fingertip perform three-layer. The inner layer is made of cotton fabric, the middle layer is made of air-based material based on natural fibers with a thickness of 0.3 cm, the outer layer is made of plastic film.

 PRI me R 2. The glove perform a three-layer. As the middle layer, an air-volume synthetic material of 0.5 cm thickness is used.

 The protective properties of gloves depending on the thickness of the air-protective material are given in the table.

 During the doctor’s work with the proposed gloves, ultrasonic rays passing through the polyethylene outer layer are reflected from the second (air-volume) layer, the residual radiation is delayed between the second (air-containing) and the first (inner) layers.

 Obtained by this method, a protective glove is used as follows. The specialist puts on a glove on his right hand and takes the ultrasound device probe into this hand, having previously lubricated the patient’s skin surface with contact paste. With a hand in a protective glove with a sensor, they drive along the gel-lubricated surface of the patient's skin. The sensor sends ultrasound to the patient’s body and receives ultrasound reflected from the boundaries of the internal organs, part of the reflected ultrasound falls on the glove, not on the doctor’s hand, and is reflected from the glove due to the middle air layer.

 When working in ordinary cotton gloves with insignificant loads on the skin of the doctor’s skin, the phenomenon of dermatosis appears, which manifests itself in peeling of the skin, pain in the muscles and joints of the hand, and plexitis. Doctors who work with ultrasound for a long time and do not reliably protect their hands from ultrasound radiation, after several years of work become persistent disabled. When working in the proposed gloves, these phenomena do not occur.

 The protective glove provides reliable protection for the researcher’s hands, increasing labor productivity by increasing the number of patients accepted for diagnostic and treatment procedures, reducing the number of days on the sick leave of the doctor, reducing the length of the patient’s stay in the clinic, as well as the psychoemotional comfort of the doctor who is aware of the protection against ultrasonic radiation .

 The five-fingered protective glove is characterized in that in order to improve the quality of protection against reflected ultrasound on the skin, muscles and nerve endings of the researcher’s hand, it contains three layers, the inside of which is cotton fabric, an average air-volume material based on natural, synthetic or a mixture of natural and synthetic fibers with a thickness of at least 0.25 cm, and the outer layer is a polymer film.

 The proposed protective glove completely protects the doctor’s hands from reflected ultrasonic radiation, is convenient to use, is easily cleaned from traces of oily and pasty substances used in manipulations, has an aesthetic appearance, is not only functional, but also a psycho-emotional protective agent when working with reflected ultrasound, simple manufacturing technology does not require special production.

 The test results of the protective glove according to the obtained method showed high efficiency, which consists in the complete protection of the researcher's hands from reflected ultrasound radiation.

Claims (5)

 1. A protective glove designed to protect the doctor’s hands and containing the back and palm of the hand, characterized in that, in order to create a protective air screen from the influence of reflected ultrasound on the skin, muscles and nerve endings of the researcher’s hand, the glove contains three layers, of which the middle air-based material based on natural, or synthetic, or a mixture of natural and synthetic fibers, the inner layer is cotton fabric, the outer layer is a polymer film.  2. A method of performing a protective glove, including the taking of anthropometric data, cutting the material into parts of the palm and back parts in one piece with the fingertip and interdigital pad and assembling the parts into a product, characterized in that, in order to improve the quality of protection when working with ultrasound, a glove they are made of at least three layers, while cotton fabric is used for the inner layer, and to provide protection against ultrasound, an air-volume middle layer is made of a material based on natural or blue eticheskih, or mixtures of natural and synthetic fibers, wherein the outer layer as a polymer film.  3. The method according to claim 1, characterized in that a plastic film is used as the outer layer.  4. The method according to claim 1, characterized in that, for example, a synthetic winterizer is used as the air-volume material of the protective layer.  5. The method according to claim 1, characterized in that, for example, cotton batting is used as the air-volume material of the protective layer.

Images