RU75738U1 - ELECTRONIC ELECTRONIC FLOOR SCALES FOR MONITORING THE BODY WEIGHT DISTRIBUTION IN A PERSON STANDING ON THEM - Google Patents

Abstract

The utility model is aimed at controlling the distribution of body weight in a person standing on them, by determining body weight, separately from each other, from two symmetric weight measuring platforms, and the total average body weight of a person from these two symmetric weight measuring platforms. The specified technical result is achieved by the fact that the scales contain a flat body, on the upper surface of which there are two symmetrical holes in which the weighing platforms are located, power transmitting devices are located under them, further, sensors sensing pressure from the gravity of the human body through the left and right legs, and converting it into electrical signals, then coming into electronic indicators, converting these signals into digital codes and issuing information about the distribution of human body mass on displays mounted in holes in the upper surface of the body, a microprocessor calculating the total average human body weight from both weighing platforms and showing it on the display, also mounted in a hole in the upper surface of the body of the scale. 1 s.p. f-ly. 2 ill.

Description

The utility model relates to a weight measuring technique, namely to scales for controlling the distribution of body weight of a person standing on them, as well as his total average weight.

Known medical electronic floor scales, adopted as a prototype, containing a housing, a weighing platform, a power transmission device, a pressure sensor, an electronic indicator, a display (Medical electronic floor scales seca 803. Manufacturer: seca gmbh & co. Kg. (Germany). Internet -store “ARSAMED.RU”. 2005-2006. http://www.arsamed.ru/catalog/price6/details/48/). The disadvantage of these scales is the inability to control the distribution of body weight of a person standing on them due to their design features - they only have one weight measuring platform, etc.

The objectives of the utility model is to control the distribution of body weight in a person standing on them, by determining body weight, separately from each other, from two symmetric weight measuring platforms, and the total average body weight of a person from these two symmetric weight measuring platforms.

This is achieved by the fact that medical electronic floor scales for controlling the distribution of body weight of a person standing on them contain a flat body, on the upper surface of which there are two symmetrical openings in which there are weighing platforms, power transmitting devices are located under them, further, sensors sensing the force of pressure from the gravity of the human body through the left and right legs, and converting it into electrical signals, which then go into electronic indicators, converting these signals into digital marketing codes, and outputs information about the mass distribution of the human body to displays mounted in holes in the upper surface of the housing, the microprocessor calculates the total averaged body weight of the load on both the platforms and showing it on the display, also mounted in the opening in the upper surface of the balance housing.

Sensors can be used: vibration frequency (string) or piezoelectric or tensometric, as well as indicators with displays - LED segment or liquid crystal segment or liquid crystal sign-synthesizing or luminescent (gas-discharge) sign and segment.

Medical electronic floor scales for monitoring the distribution of body weight in a person standing on them are illustrated by the figures: Fig 1. - (top view), Fig.2 (side view), where 1 is a flat square body of the scales; 2 - weight measuring platforms; 3 - scales displays.

Medical electronic floor scales for monitoring the distribution of body weight in a person standing on them are made as follows: a flat square case 1 (dimensions 30 × 30 cm, using strain gauge sensors) weights and weighing platforms 2 made of thin metal; used sensors: vibration frequency (string) or piezoelectric or tensometric, as well as indicators with displays 3 - LED segment or liquid crystal segment or liquid crystal sign-synthesizing or luminescent (gas-discharge) sign and segment, all factory production; three displays 3, mounted in the holes in the upper surface of the scale body 1, are located nearby and, respectively, have the signatures - left - general - right, which means - body weight from the left foot, total averaged body weight, body weight from the right leg, of course , person. The proposed scale has a bed on which sensors are installed, etc., structural elements fastening weight measuring platforms 2, cable communication lines, power supply, etc. The lower surface of the same scales has support legs.

Medical electronic floor scales to control the distribution of body weight in a person standing on them operates as follows: a person becomes his left and right legs, respectively, on the left and right weight measuring platforms 2, pressure forces arise under the weight of a person, which, using power transmitting devices, are transmitted to sensors (for example, to load cells), here they (pressure forces) are converted, in proportion, respectively, to the mass of the body from the left and right legs, into electrical signals transmitted further to the electric electronic indicators, the latter, in turn, convert these signals into digital codes and provide information on the distribution of human body mass on their displays

3, the microprocessor calculates the total average body weight of a person from the same two weight measuring platforms and also shows it on display 3. This is the technical side of the utility model.

The practical application in medical institutions of the claimed electronic medical floor scales to control the distribution of body weight in a person standing on them is as follows. Once again - this is the control of the distribution of body mass of a person standing on a single scale having two weight measuring platforms 2. This is necessary in the practical activities of specialized medical institutions. It is known that normally in a standing position the body weight of a person mainly falls on the supporting leg, and is not evenly distributed on both legs. The proposed electronic medical floor scales for monitoring the distribution of body weight in a person standing on them allow you to determine the ability of the person being examined to correctly assess and implement a symmetrical load on both legs. Due to the fact that the spine is an organ of equilibrium, this test (using the proposed weights) shows that blocking is the most common cause of various loads on the legs. In the case of blocking in the spine, a difference in load between the left and right legs of more than 5 kg is detected. This difference disappears after treatment. Blocking in the joints of the head is most affected. In patients, for example, with lumbago, in cases when after treatment of the lumbar spine and pelvis, after leveling the length of the legs, etc. the difference in their load remains, a thorough study of the upper cervical spine is necessary. Research on the proposed scales is often decisive in the study of human statics. It should be added to the methodology of this study that it is strongly required from a person (patient) to load both legs equally, while weighed so that he cannot see the measurement data. A person (patient) cannot eliminate small fluctuations, therefore, it is often impossible to determine the difference in load of less than 2 kg. In adults, the difference less than 5 kg should not be taken into account, but in children the difference of 3 kg is of great importance. In this case, one should not rush to take readings until a constant value is established at which the person (patient) feels that he is loading both legs equally, or until the pointer constantly fluctuates around a certain average value. The possibility of an artifact in case of pain in the leg or foot should also be considered.

Currently, several prototypes of medical electronic floor scales have been manufactured to control the distribution of body weight of a person standing on them, tests of which have shown the achievement of the above technical results (determination of a person’s body weight, separately from each other, from two symmetric (left and right) weight measuring platforms , and the total averaged human body mass from these two symmetric weighing platforms) during their operation, which is very convenient for controlling the distribution of body weight of them a man, both in the process of diagnosis and treatment.

Claims (1)

Medical electronic floor scales for monitoring the distribution of body weight of a person standing on them, including a housing, a weighing platform, a power transmitting device, a pressure force sensor, an electronic indicator, a display, characterized in that the balance contains a flat body, on the upper surface of which there are two symmetrical openings in which the weighing platforms are located, underneath are power transmitting devices, further, sensors sensing pressure from the gravity of the human body through the left and right I equalize the legs, and converting it into electrical signals that go further into electronic indicators, converting these signals into digital codes and providing information about the distribution of the human body mass on displays mounted in holes in the upper surface of the case, a microprocessor calculating the total average human body weight from both weighing platforms and showing it on the display, also mounted in a hole in the upper surface of the scale body.