RU2334954C1 - Medical electronic scales - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention is related to weighting measurement equipment and may be used in medicine in devices for creation of favourable conditions for nursing of debilitated newborns, for instance, in composition of incubators, or as independent object. Medical electronic scales contain control unit, module of weight measurement, which contains casing, weight platform with fastening units, measuring device, which is installed between them and made in the form of two top power arms with resistance-strain sensors, sliding carriage for X-ray cassette, control unit is connected with resistance-strain sensors and with pedal of tare weight compensation. At that scales basis is made in the form of solid plate installed in casing, units of weight platform fastening are arranged in the form of annular elements of reduced friction, resistance-strain sensors are installed along smaller sides of basis on the opposite sides in relation to longitudinal symmetry axis, and on sliding carriage for X-ray cassette mutually perpendicular lines are marked to provide possibility of accurate positioning of weighted object (newborn) in relation to X-ray cassette.

EFFECT: increase of work quality and expansion of scales field of application.

1 dwg

Description

The invention relates to weight measuring equipment and can be used in medical equipment in devices to create favorable conditions for nursing weakened newborns, for example, as part of incubators, or as an independent object.

Known electronic tensometric scales containing a weighing platform with attachment points, a base and two weight supports, each of which has lower and upper power shoulders and a force sensor between them in the form of a parallelogram elastic element with strain gages, while the weight supports are mounted on the base in the opposite direction a parallel circuit, and the lower weight shoulders of the weight supports are interconnected by a rigid connection (RF patent No. 2044283, G11G 3/12).

Known electrotensometric scales, including interconnected and mounted on the housing load receptor with strain gauges, a power device and an information block (see Polytechnical Dictionary, M .: S.E., 1989, p. 77).

Known electronic medical scales, consisting of a control unit and a weighing module (weight measuring module), comprising a body, base, weighing platform with attachment points, a measuring device located between them and made in the form of two upper power arms with strain gauge sensors, the control unit is connected with strain gauge sensors and a tare mass compensation pedal, the base is made in the form of two pairs of mutually perpendicular channels installed in the housing, the weighing platform has a pin e fastening units, and strain gauges of the measuring device arranged on the base of the transverse channel bars on opposite sides of the longitudinal symmetry axis weighing module housing is provided with a sliding carriage for placing the X-ray cassette (Certificate for useful model №19159, G11G 3/12) - prototype.

A disadvantage of the known technical solutions is the relatively poor quality of work.

An object of the invention is to improve the quality of work of medical electronic scales by increasing the accuracy of measuring signals of strain gauge sensors, as well as expanding the scope by ensuring the possibility of their use separately from the incubator.

To solve this problem, we offer a medical electronic scale containing a control unit, a weight measuring module containing a housing, a base, a weighing platform with attachment points, a measuring device located between them and made in the form of two upper power arms with strain gauge sensors, a sliding carriage for X-ray cassettes, the control unit is connected to strain gauge sensors and a tare mass compensation pedal, characterized in that the base of the balance is made in the form of a solid plate In the housing, the attachment points of the weighing platform are made in the form of annular elements of reduced friction, strain gauge sensors are placed along the smaller sides of the base from opposite sides relative to the longitudinal axis of symmetry, and mutually perpendicular lines are drawn on the slide carriage for the X-ray cartridge to enable accurate positioning of the weighing object ( child) relative to the x-ray cartridge.

The drawing shows a structural diagram of the scales, including the weighing platform 1, containing the first and second strain gauge sensors 2 and 3, respectively, weight measurement module 4, control unit 5, including power control module 6, display module 7, technological module 8, transformer 9, pedal 10 tare weight compensation.

Scales are designed to measure the mass of premature or weakened newborns during nursing and treatment in an incubator for newborns. Scales can be used as a part of incubators of IND-02 and IND-03 types (manufacturer of FSUE “UOMZ”, Russia), and also as an independent object.

Functionality of the scales:

- weighing;

- conclusion to the indication of mass values;

- Compensation of tare;

- installation of an x-ray cartridge.

The principle of operation of the scales is based on the conversion of the gravity of the object being weighed by the strain gauge sensors 2 and 3 into an electrical signal, which is then processed by the weight measurement module 4 of the weighing platform 1 and displayed by a digital display of the display module 7.

The signals from the strain gauge sensors 2 and 3 are processed through two conversion channels. In control unit 5, data is received from the weight platform 1, information is displayed, and control commands are generated. The control unit 5 provides a digital indication of the mass of the object being weighed, an LED indication of the main and technological modes of operation of the scales and also contains a button keyboard for setting operating modes. All the work of the scales is controlled by the microprocessor according to the program specified by the read-only memory (ROM). The principle of operation of module 4 for measuring weight is based on the conversion of the signals of strain gauges 2 and 3 into a digital code, which is fed to the microprocessor for processing according to the program specified by the ROM. Scales work in two modes: “Scales” and “Calibration”.

The "Calibration" mode provides the accuracy of measuring the mass of the object of weighing (child), as well as the determination and storing of the technological parameters of the weighing platform 1, taking into account the acceleration of gravity at a given point on the Earth.

In the "Scales" mode it is provided:

- determination of tare mass;

- determination of the mass of the object to be weighed;

- conclusion to the indication of the mass values of the object being weighed;

- setting a zero value automatically or manually.

During operation, the weight measurement module 4 constantly diagnoses the state of the balance and, when an error occurs, displays it on the display module 7.

The transformer 9 of the control unit 5 lowers the AC supply voltage from 220 to 13-14 V, and also protects the control unit 5 and other units in case of unusual situations.

The power management module 6 is intended for converting the alternating voltage coming from the transformer 9 into a constant voltage of 12 V and for controlling the inclusion of the balance by the signal of the "Power" key.

The indication module 7 is intended to indicate the mass of the object to be weighed and display diagnostic information on the indicator.

Technological module 8 is designed to ensure the operation of the balance in the "Calibration" mode.

The pedal 10 tare weight compensation is used to facilitate the work of medical personnel during manipulations with the child during weighing. Pedal 10 tare weight compensation allows the operator to weigh alone, as when you press the pedal 10, the tare mass is automatically compensated and the indicator reads zero.

Claims (1)

Medical electronic scales containing a control unit, a weight measuring module containing a base, a weighing platform with attachment points, a measuring device located between them and made in the form of two upper power arms with strain gauge sensors, a sliding carriage for an X-ray cartridge, the control unit is connected to a strain gauge sensors and pedal for compensation of tare mass, characterized in that the base of the balance is made in the form of a solid plate mounted in the housing, the attachment points of the weighing platform are ying a low friction annular elements, strain gauges of the measuring devices are arranged along the smaller sides of the base on opposite sides of the longitudinal symmetry axis, on the sliding carriage for X-ray cassettes are applied mutually perpendicular lines to enable accurate positioning of the weighing object relative to the X-ray cassette.