RU190862U1 - DEVICE FOR EXTRACTION OF MILK AND PREVENTION OF HYPOGALACTION IN WOMEN - Google Patents

Abstract

The invention relates to medical technology and is designed for milk removal and prevention of hypogalactia in women. The device includes an external head with an elastic pad and a pneumatically controlled compression mechanism of an elastic pad, a source of pneumatic power, a shaper of compression pulses containing a compression amplitude regulator connected by its input to a source of pneumatic power, and a pneumatic distributor with an electromagnetic control connected to an electric impulse generator, as well as a vibratory pulsator that equipped with a vibration switch and connected to a pneumatically controlled compression mechanism of an elastic lining. The pneumatic valve is made in the form of a pneumatic distribution unit containing two two-line two-position pneumatic distributors, one of which is connected to the compression amplitude regulator by an input line, and an output line to the compression lining mechanism of the second valve, and the second pneumatic valve is connected to an elastic lining compression mechanism and the outlet line to the second valve, and the output line is connected to an elastic lining compression mechanism and the outlet line is connected to an outlet line, and the second pneumatic valve is connected to an elastic line compression regulator. with the atmosphere. The technical result consists in increasing the effectiveness of the vibration pulsator on the pneumatic control mechanism for compressing the elastic lining by reducing the power losses of the vibration pulsator in the pneumatic distribution unit of the compression pulse shaper. 4 ill.

Description

The invention relates to the field of medicine, namely to the means for removing milk from a woman’s mammary gland and preventing hypogalactia in the postpartum period.

A device for expressing milk (Engel breast pump.Type SMB. Technical characteristic. 1993) is known. It contains an electric motor with a gearbox and is connected via an eccentric to a vacuum pulse generator made in the form of a plunger pump, a vacuum pulse amplitude regulator, a rigid lining and a milk collection box. However, the known device does not effectively stimulate the lactation reflexes, since it has only a vacuum component for removing milk, and in some cases does not provide a sufficiently complete removal of milk from the woman’s gland.

A device for milk removal and prevention of hypogalactia in women (RF Patent No. 21545471, IPC А61М 1/06, publ. 1999) is known, which contains an external head with elastic adjustment and a pneumo-controlled mechanism of compression of the lining, a milk collector connected to the remote head through the milk inlet pipe, source of vacuum, source of vibratory pneumatic feeding and unit for forming pneumatic impulses, including a vacuum pulse shaper connected by an input to a vacuum source, and output to a milk collector and a compression pulse shaper vibration associated with the input source vibropulsiruyuschego pnevmopitaniya, and the output from the compression mechanism of the elastic lining. To the output of the source of vibro-pulsed pneumatic supply there is a constant-level regulator of pneumatic feeding and a vibration switch connected. A pneumatic control mechanism for stretching the elastic lining is connected with the source of vibropulsing pneumatic supply directly or through an additional shaper of stretching pulses.

The known device allows milk to be removed from the breast, acting on the nipple and areola, along with vacuum pulses and compression and vibration pulses, which leads to an enhanced lactation reflex and more rapid and complete emptying of the breast. It is known that the most effective form of exposure is continuous vibration, not pulsed. The mode of action of continuous vibration on the mammary gland is implemented in a known device using a pneumatically controlled stretching mechanism of an elastic lining mounted on an external head. In case of increased pain sensitivity of the nipple and areola (lactostasis, mastitis, injuries and inflammation in the mammary gland), when the impact of a compression pulse on the nipple and areola is eliminated, the known device allows milk to be expressed from the gland due to vibration together with vacuum impulses. With such an effect, the patient, who does not experience noticeable pain, is stimulated by the nipple and areola mechanoreceptors, the lactation reflex is caused and milk is removed from the gland. In addition, vibration, penetrating into the tissue of the gland, has a direct effect on the myoepithelial cells of the mammary gland, causing their reduction, which also contributes to the removal of milk from the gland. Depending on the specific situation, the known device allows pumping in the appropriate mode.

However, the known device has the following disadvantages, worsening its performance. To implement the continuous vibration feed mode on the mammary gland, an additional pneumatic control mechanism for stretching the elastic lining is used, which significantly complicates the design of the remote head. At the same time, sanitization of both the head itself and the elastic lining is significantly hampered. The need for continuous venting of air from the source of vibratory pneumatic supply through an adjustable choke into the atmosphere leads to a large air flow, which reduces the efficiency of the device, increases the size and weight of the pneumatic supply source.

A device is known for removing milk and preventing hypogalactia in women (RF patent for PM 152273 publ. 2015), which contains an external head with an elastic pad and an air-controlled compression mechanism for an elastic pad, a milk collector connected to the remote head via a milk inlet pipe, source of vacuum, source vibration-pulsed power supply and a pneumatic pulse shaping unit, including a vacuum pulse former connected to the milk collector, and a compression pulse former associated with a pneumo-controlled mechanism The compression of the lining as well as the vibration switch, while the source of vibratory-pulsed pneumatic power supply contains a source of pneumatic power and the vibratory pulsator, the compression pulse shaper is connected to the output of the pneumatic power source, and the vibratory pulsator is connected to the pneumatic control mechanism of the elastic lining compression by means of a vibration switch.

In the known device, a pneumatic chamber is used in the vibro-pulsator, the volume of which, under the action of an electrically-controlled mechanism, changes with a frequency of several tens of times per second, while the pressure in the pneumatic chamber changes with the same frequency, simultaneously acting on the pneumo-controlled compression mechanism of the elastic lining and further on the shaper of compression pulses of the elastic lining , in which a significant part of the vibropulsator energy is lost due to air leakage through the pneumatic distributor, thereby reducing the impact of the vibrator satora on pneumatically mechanism compression elastic lining.

The compressed air pulse shaper consists of a compression amplitude regulator connected in series and an electrically-controlled pneumatic distributor connected with a pneumo-controlled compression mechanism of an elastic lining and with a vibratory pulsator. The valve sets the duration and frequency of the pneumatic compression pulses. In this case, the pneumatic distributor is made on-off (can be in two positions) with an inlet line, an outlet line and an air release line. The output line of the valve under the action of electrical control pulses alternately closes with the input line or with the air release line.

When a connection is made between the output line and the input pneumatic compression impulse is fed to the compression mechanism and to the vibratory pulsator. Moreover, the presence of a connection between the input and output lines of the pneumatic distributor leads to the fact that some of the energy of the vibratory pulsator is wasted on the movement of air through the output-input lines of the pneumatic distributor and further through the compression amplitude regulator.

When the output line and the line connected to the atmosphere are closed, the compression air pulse ends. During the pause between the compression pulses, the presence of a connection between the output line and the air discharge line leads to the fact that the vibratory pulsator, in addition to affecting the compression mechanism, will uselessly move air through the output line and the line associated with the atmosphere.

Thus, the energy consumption of the vibratory pulsator during idling of air reduces the effectiveness of the vibratory pulsator's effect on the compression mechanism of the elastic lining and, therefore, reduces the vibratory pulsator's impact on the mammary gland.

A device for removing milk and preventing hypogalactia in women, including an external head with an elastic pad and a pneumatic control mechanism for compressing the elastic pad, a source of pneumatic power, an electromagnetic pulse shaper connected to it, connected to an electrical impulse generator, a vibratory pulsator equipped with a vibration switch, and Compressor pulse shaper and vibratory pulsator are connected to a pneumatically controlled compression mechanism of an elastic lining, selected as ve closest analogue of the utility model.

The task of the utility model is to enhance the stimulation of milk reflexes reflexes and increase the milk productivity of a nursing woman performing pumping procedures using the proposed device.

The problem is solved by the fact that in a known device for removing milk and preventing hypogalactia in women, including a remote head with an elastic pad and a pneumatic control mechanism of an elastic pad, a pneumatic supply source, a compression pneumatic impulse generator, containing a compression amplitude regulator connected by its input to a pneumatic supply source and pneumatic distribution valve Electromagnetic controlled, connected to an electric pulse generator, a vibratory pulsator equipped with a vibration switch, and you The pneumatic distributor and vibro pulsator are connected to a pneumatically controlled compression mechanism of an elastic lining. According to the utility model, the pneumatic distributor is designed as a pneumatic distribution unit containing a three-way two-position pneumatic distributor, the input line is connected to the outlet of the amplitude of the compression amplitude by means of a check valve, and a reset line is connected. air throttle.

The problem is also solved by the fact that in a known device for removing milk and preventing hypogalactia in women, including a remote head with an elastic pad and a pneumatic control mechanism for compressing an elastic pad, a source of pneumatic feeding, a compresser of pneumatic compression pulses containing a compression amplitude regulator connected to the source of pneumatic feeding with its input and Electromagnetic-controlled pneumatic valve connected to an electric pulse generator, vibro-pulsator equipped with a vibration switch , and connected to a pneumatic control mechanism for compressing an elastic lining, according to the utility model, the pneumatic distributor is made in the form of a pneumatic distribution unit containing two two-line two-way pneumatic distributors, while one pneumatic distributor is connected to the output of the compression amplitude regulator and the output distributor with the input line, connected to the amplitude of the amplitude of the compression amplitude, and the output distributor with the input line, connected to the amplitude of the amplitude of the compression, and the output distributor with the mechanism, with the input line connected to the output of the amplitude regulator of compression, and the output distributor with the mechanism, with the output mechanism connected to the amplitude of the amplitude of the compression, and the output of the distributor with the mechanism, with the input line connected to the output of the amplitude regulator of compression, and the output distributor - with the mechanism, the output line is connected to the output of the amplitude regulator of the compression, and the output valve is connected to the output mechanism of the amplitude of the amplitude of the compression, and the output of the hydraulic distributor with a mechanism for connecting the amplitude of the amplitude of the compression and and the second pneumatic distributor has an inlet line connected with the compression mechanism of an elastic lining, and an outlet line is connected with the atmosphere.

The technical result of the utility model consists in increasing the effectiveness of the vibrating pulsator on the compression mechanism of the elastic lining due to a sharp decrease in the power losses of the vibrating pulsator in the compression pulse shaper, both during the compression pulse and in the intervals between pulses.

The essence of the utility model is illustrated in FIG. 1-4

FIG. 1 is a block diagram of the device, where the compression pulse shaper is equipped with a pneumatic solenoid valve with electromagnetic control; FIG. 2 shows a block diagram of a device with a compression pulse shaper (the first option); FIG. 3 is a block diagram of a device with a compression pulse shaper (the second option); FIG. 4 is a cyclogram of compression pulses and electric control pulses in the compression pulse shaper (the second option).

A device for removing milk and preventing hypogalactia in women generally contains (Fig. 1) a remote head (1) with an elastic lining (2) and a pneumatic control mechanism for compressing the elastic lining (3) consisting of a pneumocamera, which changes its volume when it changes the air pressure associated with the device of mechanical compression of the elastic lining, the source of pneumatic supply (4) and the former of pneumatic impulses (5), consisting of a regulator of compression amplitude (6) and pneumatic distributor with electromagnetic control (7), fo miruyuschego duration and repetition rate pnevmoimpulsov compression. Electric control pulses according to a given program are fed to the pneumatic distributor (7) from the electric pulse generator (8). The valve has an inlet line (9), an outlet line (10) and an air vent line (11). This is a trilinear two-way valve. Pneumatic compression pulses from the outlet (10) of the pneumatic distributor are fed to the compression mechanism (3) of the elastic lining (2) and to the vibratory pulsator (12) via the main pneumatic conduit (13).

The vibratory pulsator (12) includes a pneumocamera, the volume of which under the action of an electrically controlled mechanism changes with a frequency of several tens of times per second, which leads to a change in air pressure in this chamber with a vibration frequency, which is transmitted to the pneumo-controlled compression mechanism elastic lining (3) and to the pneumatic distribution device (7). As a result, there is a continuous impact of the vibration impulses on the compression mechanism of the elastic lining (3) both during the compression impulses and during the interpulse period. In this case, the vibration pulses are superimposed on the compression pulses. The vibratory pulsator (12) is equipped with a vibration switch that provides the supply of vibration to the main pneumatic line (13) or the shutdown of vibration.

In addition to influencing the compression mechanism (3), vibrating pulses also act on the pneumatic distributor (7), as well as during the pneumatic compression pulse, when the input (9) and output (10) lines of the pneumatic distributor (7) interconnect the vibratory pulses that create air movement through this connection and further through the compression amplitude regulator (6).

During the pause between the compression pulses, when the output line (10) is connected to the air discharge line (11), the vibration pulses will create air movement through the pneumatic lines (10) and (11). As a result, the effectiveness of the vibrating pulsator on the compression mechanism, both during the compression pulse and during the pause between pulses, is significantly reduced.

In the device according to the first embodiment (FIG. 2), the shaper of compression pulses (5) contains a trilinear two-way pneumatic valve (7) with electromagnetic control, connected with an electric pulse generator (8). The valve (7) with its inlet line (9) is connected to the compression amplitude regulator (6) by means of a check valve (14), the air discharge line (11) of the pneumatic valve (7) is connected to the atmosphere through the air throttle (15), and the output line (10) The pneumatic distributor (7) is connected to the compression mechanism of the elastic lining (3) and to the vibratory pulsator (12) through the main pneumatic conduit (13). As a result, during the compression pulse, when the line (9) and the line (10) of the pneumatic distributor (7) are closed between themselves, the check valve does not interfere with the passage of air from the compression amplitude regulator (6) through the pneumatic distributor (7) to the compression mechanism (3), but does not allow air in the opposite direction. As a result, the effectiveness of the vibrating pulsator (12) on the compression mechanism (3) during the compression pulse increases significantly. During the pause between pulses, when the output line (10) and the air discharge line (11) are closed, inserting the air throttle (15) into the air discharge line (11) increases the air resistance for air to flow through the line (11) in both directions and reduces movement air in line (11), due to the operation of the vibratory pulsator. The consequence of which is an increase in the efficiency of the vibratory pulsator in the interpulse period of time.

The introduction of the air throttle (15) leads to an increase in the length of the trailing edge of the compression pulse. In order that the increase in the length of the trailing edge of the compression pulse does not cause deterioration of the milk, the duration of the trailing edge of the compression pulse should be limited. It has been experimentally established that the air throttle (15) should be chosen such that the duration of the falling edge of the compression pulse is about 1/3 of the duration of the pause between the compression pulses.

In the claimed device according to the second embodiment (FIG. 3), the compression pulse shaper (5) contains two two-line two-position pneumatic distributors (16) and (17) with electromagnetic control, connected with an electric pulse generator (8). The pneumatic valve (16) with its input (18) is connected with the compression amplitude regulator (6), and the output (19) through the main pneumatic conduit (13) with a vibratory pulsator (12) and with the compression mechanism of an elastic lining (3). The pneumatic distributor (17) is connected by its inlet (20) through the main pneumatic line (13) to the vibratory pulsator (12) and to the compression mechanism of the elastic lining (3), and the outlet (21) to the atmosphere.

FIG. 4 diagrams I, II, III explain the operation of the pneumatic distributor with two two-line two-position normally open pneumatic distributors (16) and (17) (in the absence of an electrical control pulse, the pneumatic distributors are open).

The plot I shows pneumatic pulses, which along the line (13) (Fig. 3) are fed to the compression mechanism (3) of an elastic lining.

The plot II shows the electrical impulses supplied to the pneumatic distributor (16).

Plot III shows the electrical impulses delivered to the pneumatic distributor (17).

When an electric pulse is applied to the pneumatic distributor (16) at the time t ₁ (plot II), the input and output lines of the pneumatic distributor are closed. And compressed air from the compression amplitude regulator (6) begins to flow to the compression mechanism (3). In this case, the valve (17) is open. At time t ₂ , when the transient air supply to the compression mechanism (3) has ended, the pneumatic distributor (16) opens. At the same time, the steady-state air pressure on the compression mechanism (3) is maintained. At time t _{3, the} electrical signal goes to the pneumatic distributor (17) (plot III), the output of which is connected with the atmosphere. As a result, the pressure on the pneumatic mechanism (3) is released and at the end of the transition process at time t _{4 the} pneumatic valve (17) opens. Then at time intervals t ₅ - t ₆ , t ₇ - t ₈ , etc. The process of supply and pressure relief in the compression mechanism (3) is repeated many times. Note that in time intervals t ₂ - t ₃ , t ₄ - t ₅ ; t ₆ - t ₇ to etc., when both pneumatic distributors are open, the vibratory pulsator provides the maximum possible vibration effect on the pneumatic control mechanism of compression of the elastic lining, since air leakage through pneumatic distributors caused by the operation of the vibratory pulsator is absent at this time.

At time intervals t ₁ - t ₂ ; t ₃ - t ₄ , t ₅ - t ₆ , t ₇ - t ₈ , etc. air leaks through pneumatic distributors caused by the operation of the vibro-pulsator occur, and, therefore, the efficiency of the vibro-pulsator decreases at this time.

To increase the efficiency of the vibrating pulsator, it is required that the total time when one of the pneumatic distributors (16) or (17) is closed is as short as possible compared to the total time when both pneumatic distributors are open.

Claims (1)

A device for removing milk and preventing hypogalactia in women, including an external head with an elastic pad and a pneumatic control mechanism for compressing the elastic pad, a source of pneumatic supply, a former of compression pneumoimpulses, containing a compression amplitude regulator connected to the source of pneumatic supply with its input, and an electromagnetic distributor with electromagnetic control connected to electric pulse generator, vibratory pulsator, which is equipped with a vibration switch and is connected to a pneumatic control valve Compression elastic lining, characterized in that the valve is made in the form of a pneumatic distribution unit containing two two-line two-way pneumatic distributor, with one pneumatic valve with an input line connected to the output of the compression amplitude regulator, and an output line with a compression lining mechanism, and a second pneumatic valve, and a second pneumatic valve with a compression louver; associated with the compression mechanism of the elastic lining, and the output - with the atmosphere.

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