RU2105572C1 - Device for removing milk and preventing hypogalactia in women - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has outlying head with flexible strap, milk collector, pressure supply source (compression-rarefaction) with system for shaping compression and rarefaction (vacuum) pulses controlling periodicity and amplitude of action applied to nipple and areola region in the lactation sinuses area. The device is usable in individual mode and under hospital conditions. EFFECT: stimulated lactation reflex; prevented mammary gland infection; improved quality of maternal milk; effective nipple shape correction. 1 dwg

Description

 The invention relates to medicine, namely to means for the selection of milk, and can be used to remove milk from the breast of a woman and for the prevention of hypogalactia in the postpartum period.

Known electric suction pump of breast milk for one patient EOM-1, containing a vacuum source (membrane compressor), a vacuum pulse shaper (pulsator), a pulse amplitude regulator, a glass remote pad and a milk collector [1]
Common in the known device and the claimed invention is the presence of a vacuum source, pulse shaper vacuum and milk collector. However, the known device is not effective enough to start the milk delivery reflex and removes milk from the gland in women, especially in the case of tight mammary glands, which is due to the use of only a pulsating vacuum to separate the milk.

 Known is a combined apparatus for introducing milk from the mammary gland and feeding the baby, containing a vacuum source and compressed gas, an elastic conical tube with a circular chamber into which overpressure can be supplied, and a milk collector [2] A common source in the known device and the claimed invention is the presence of a vacuum source and pressure, an elastic tube, pinch air chambers and milk collector. However, the presence in the known device of a circular pinch pneumatic chamber also cannot sufficiently provide stimulation of the milk flow reflex, since when applying excessive pressure to the circular chamber, its elastic walls form a star-shaped structure, into the folds of which skin covering the gland can get and get pinched, causing pain sensations in a woman.

 A device for expressing milk [3] is known, comprising an electric motor with a reducer connected by means of an eccentric to a vacuum pulse generator made in the form of a plunger pump, a vacuum pulse amplitude regulator, a rigid plate and a milk collector. Common to the known and claimed devices is the presence of a pulsating vacuum source, a vacuum amplitude regulator, lining and milk collector. However, the known device is not effective enough to start the milk flow reflex, since it has only a vacuum component for the removal of milk, and in some cases does not provide a sufficiently complete removal of milk from the woman’s gland.

 A device for removing milk from a woman [4] is known, which contains a vacuum pump, an elastic pad and a moloksbornik connected by pneumatic drives. The elastic patch has a funnel-shaped part, the wide end of which is applied to the mammary gland, and the narrow part passes into the tubular part with protrusions on its inner surface. The tubular part ends with a bent thick-walled pipe, to which a constant vacuum is applied. The pipe is connected to the milk collector and has an opening on the side surface. The formation of vacuum pulses in duration and repetition rate is carried out by the patient herself by blocking with her finger a hole in the nozzle through which air is sucked from the atmosphere into the suction cup of the lining and into the milk collector. During the action of vacuum pulses, the tubular part of the lining with protrusions and the adjacent part of the funnel, having the smallest wall thickness, are compressed due to the pressure difference inside and outside. As a result, simultaneously with the action of vacuum pulses, the nipple and areola are compressed, and the presence of protrusions enhances the stimulation effect of the nipple and areola prescription apparatus. Common to the known device and the claimed invention is the presence of a vacuum source, an elastic lining and a milk collector. The known device is selected as the closest analogue.

 A disadvantage of the known device is the need to use a high vacuum so that the additional compression of the nipple and areola of the mammary gland has an amplitude sufficient to effectively stimulate the reflex of milk flow. However, it is known that high vacuum can cause mastitis. Moreover, the absence in the known device of adjusting the level of mechanical impact on the nipple when it is compressed, independent of the vacuum applied to the nipple, precludes the possibility of establishing for the patient an adequate level of mechanical irritation of the areola and nipple, in which there is a full reflex of milk excretion. In addition, in the known device, primarily, the rhythmic compression of the tip of the nipple occurs, while to increase the rate of excretion of milk, rhythmic local compression of the areola of the mammary gland in the area of the mammary sinuses is necessary.

 To ensure effective complete, fast and non-traumatic removal of milk from the mammary gland of a woman’s breast and nipple, it is necessary, along with the application of vacuum pulses, to provide rhythmic compression of the areola area of the nipple, which would be local and concentrated in the area of the mammary sinuses. This combination of effects is characteristic of the process of milk excretion by a child and contributes to the release of reflex hormones into the bloodstream, which provide both the most complete excretion of milk from the gland of a nursing woman and the subsequent increase in its formation.

 In addition, it is necessary that the device meets the requirements of sanitation and hygiene, both when using expressed milk to feed the baby, and to exclude infection of the mammary gland during the use of the device.

 The problem solved by the invention is to increase the efficiency of milk removal due to the most complete imitation of the baby's sucking movements and improve the sanitary and hygienic indicators of expressed milk and aseptic procedures for using the device.

 The technical result of the claimed invention, leading to an increase in the efficiency of milk excretion while preventing hypogalactia in women, is an increase in stimulation of the milk flow reflex and local rhythmic compression of the areola of the mammary gland in the area of the mammary sinuses, as well as eliminating the risk of infection of the mammary glands during the decantation procedure and making it possible feeding a child expressed milk without sterilization.

 The problem is solved in that in the known device for milk removal and prevention of hypogalactia in women, comprising a remote head with an elastic pad, a milk collector and a vacuum pulse shaper connected to a pneumatic supply, in accordance with the invention, the portable head is equipped with a pneumatically controlled double-lever elastic pad compression mechanism connected to the pneumatic supply source through the compression pulse shaper, and two elastic pad holders connected to the rigid body of the remote head and, wherein the flexible plate is removable and has two seats for mounting in holders.

 The problem was also solved by the fact that the pneumatically controlled double-lever compression mechanism of the elastic pad contains two compression pneumatic chambers, each of which is placed between the body and levers, each of the levers being connected to the body by its axis.

 The problem is also solved by the fact that the pneumatically controlled double-lever compression mechanism of the elastic lining contains a compression pneumatic chamber located between the levers, while the levers are connected to the housing by one common axis.

 The problem is also solved by the fact that the axis of the levers of the double-lever mechanism are rigidly connected with the body of the remote head.

 The problem was also solved by the fact that both holders of the elastic pad are rigidly connected to the body of the remote head.

 The problem is also solved by the fact that the axis of the levers of the double-lever mechanism is pivotally connected to the body of the remote head.

 The problem is also solved by the fact that one of the holders of the elastic lining is rigidly connected with the body of the remote head, and the other is made with the possibility of removal from the body.

 The problem was also solved by the fact that the remote head is equipped with an additional pneumatic chamber and an additional pneumatic pulse shaper connected to it, connected to a pneumatic supply source.

 The problem was also solved by the fact that the additional pneumatic chamber is rigidly connected on the one hand to the body and, on the other hand, to the holder of the shank of the elastic patch.

 The problem is also solved by the fact that the pressing elements of the double wishbone mechanism are equipped with rollers for direct impact on the elastic pad.

 The problem is also solved by the fact that the additional pneumatic chamber is rigidly connected by its sides to the body and the shaft of the axis of the two-lever mechanism.

Such a constructive solution of the device provides:
the effort of the milk yield reflex due to the fact that the double-lever mechanism performs rhythmic compression of the neck of the elastic lining and the nipple and areola of the breast located in it;
an increase in the rate of milk elimination due to local compression of the mammary sinuses located in the areolar region of the mammary gland, by means of a double-lever mechanism;
a high degree of patient protection against infection during the procedure, as well as the ability to feed expressed milk to a child without heat treatment. Aseptic is ensured by the ease of replacing the pads and milk collector with sterile ones before each pumping procedure, as well as the ease of sterilization of replaceable pads, milk tubes and milk collector tubes if they are made of silaxane or fluorosiloxane rubber that can withstand a large number of sterilization cycles.

 In FIG. 1 is a block diagram of the proposed device; figure 2 elastic pad of the remote head (in two projections); figure 3 remote head equipped with a pneumatically controlled double-lever mechanism with two pneumatic chambers, operating from impulses of excessive pressure; a) a general view of the remote head with the elastic pad removed and the milk collector removed (no power was supplied to the pneumatic chambers, the levers are divorced); b) general view of the remote head with the elastic pad removed and the milk collector removed (power is supplied to the pneumatic chambers, the levers are reduced); c) a top view of the remote head with the head housing cut off along the plane ABC; d) a side view of the remote head with the elastic pad fixed in the holders and the connected milk collector; in Fig. 4, a remote head equipped with a double-lever mechanism with one pneumatic chamber operating from overpressure pulses: a) a general view of the external head with the elastic pad removed and the milk collector removed; b) side view of the remote head with the upper part of the body removed (elastic pad is fixed in the holders, the milk collector is connected); figure 5 - special cases of the double-lever mechanism with one pneumatic chamber, operating from pressure pulses: a) double-lever mechanism with a pneumatic chamber located between the levers, while the axis of the levers is rigidly connected to the body of the remote head (front view); b) the same (left view); c) the same (rear view); d) section AA (top view); d) section BB (front view); f) a double-lever mechanism with a pneumatic chamber located between the levers, while the axis of the levers is pivotally connected to the body of the remote head, and the pressure elements of the levers are equipped with rollers; Fig.6 remote head with an additional pneumatic chamber and the holder of the shank of the elastic pad, made with the possibility of removal from the body (elastic pad is fixed in the holders, the milk collector and the upper part of the body are removed, the head works from overpressure): a) pneumatic supply to the additional pneumatic chamber ; b) pneumatic supply to an additional pneumatic chamber is supplied; in Fig. 7, an external head with an additional pneumatic chamber and a double-lever mechanism equipped with rollers (elastic pad, milk collector and upper part of the housing are removed, the head operates from overpressure): a) power is not supplied to the additional pneumatic chamber; b) power is supplied to an additional air chamber; Fig. 8 is a cyclogram of pneumatic pulses of the device, where a is a pulse pattern at the output of a compression pulse shaper fed by overpressure, b is a pulse pattern at the output of an additional pulse shaper, c is a pulse diagram at the output of a vacuum pulse shaper; figure 9 - special cases of double-lever mechanism operating from pulses of vacuum; a) a double-lever mechanism controlled by two pneumatic chambers (arrows indicate the place and direction of action of pneumatic chambers on levers); b) double-lever mechanism with one pneumatic chamber (front view); c) the same (left view); d) the same (rear view).

 In specific cases, the implementation of the device of the claimed design (figures 1 and 2), the double-lever compression mechanism of the elastic lining may have two pneumatic chambers, each of which is placed between the body and the corresponding lever, while the levers are connected to the body by two separate axes, and the axis of the levers, as well as the elastic pad holders are rigidly connected to the body (Fig. 3). This head allows you to have smaller dimensions, however, it is difficult to change the elastic overlay and wipe the surface of the head housing adjacent to the elastic overlay. This head may preferably be in the device for personal use.

 Also in the particular case, the double-lever compression mechanism of the elastic pad can have one pneumatic chamber located between the levers, while the levers are connected to the body by a common axis, and the axis of the levers, as well as the holders of the elastic pad are rigidly connected to the body (Fig. 4). In such a head, it is easier to change the elastic lining and wipe the surface of the head housing; it is easier to manufacture, but has larger dimensions than the previous one.

 Also in the particular case, the remote head includes a double-lever mechanism with a pneumatic chamber located between the levers connected by a common axis pivotally connected to the head housing, and the holder of the shank of the elastic patch is adapted to be retracted from the body, in addition, the head is equipped with an additional pneumatic chamber, which on the one hand it is connected with a rigid case, and on the other hand, with the holder of the shank of the elastic pad, while an additional pneumatic chamber is connected with an additional pulse shaper connected with a source of pneumatic power (Fig.1, 6). In this embodiment, the head along with the compression of the nipple provides its additional retraction, which may be useful for correcting the shape of flat or retracted nipples.

 In the particular case of execution, when the head includes a double-lever mechanism with a pneumatic chamber located between the levers mounted on a common axis pivotally connected to the head housing, while the elements of the double-lever mechanism pressing on the elastic pad are provided with rollers, the holders of the elastic pad are rigidly connected to the body, and, in addition, the head is equipped with an additional pneumatic chamber located between the body stop and the shank of the double-lever mechanism axis and associated with the output of the additional driver Olsen, whose input is connected to a source pnevmopitaniya, head provides additional massage the nipple area and areola by compressing the areola region and subsequent rolling crushing elements along the teat, in some cases enhances the formation reflex of milk and may be useful for correcting shapes of flat and inverted nipples.

 The device (figure 1) contains a pneumatic supply 1 (vacuum source) and a pneumatic supply 2, which can be used as a source of compressed gas or a vacuum source. Depending on what is used as a source of pneumatic power 2, the device undergoes small changes, which are discussed below. In addition to pneumatic power supplies 1 and 2, the device (Fig. 1) contains a vacuum pulse shaper 3 connected to a vacuum source 1, a compression pulse shaper 4 connected to a pneumatic supply 2, an electric motor with a gearbox and a cam mechanism 5 connected to a vacuum pulse shaper 3 and compression 4, an external head 6 with a milk collector 7. A vacuum pulse shaper 3 includes a vacuum amplitude regulator 8 and a limit switch 9, which is connected through an air line 10 to a milk collector 7. Formirova the target of compression pulses 4 consists of an amplitude regulator 11 (regulator of the amount of clamping of the elastic lining) and a limit switch 12 (pneumatic pulse shaper), which is connected with an external head 6. Depending on what is used as pneumatic supply 2, the amplitude regulator is or pressure regulator, or vacuum regulator. The portable head 6 is provided with an elastic pad 13 (FIG. 2), the neck of which is applied to the nipple and areola of the mammary gland. A profiled washer 15 with a seat 16 is mounted on the neck of the elastic patch using a ring 14. A rigid shank 17 with a seating 18 is inserted into the tail of the elastic patch 13. By the seats 16 and 18, the elastic patch 13 is attached to the housing 19 of the extension head 6 by means of a neck holder elastic lining 20 and the holder of the shank of the elastic lining 21 (Fig.3, 4, 6, 7). The portable head 6 is equipped with a pneumatically controlled double-lever compression mechanism for the elastic pad, consisting of a double-lever mechanism 22 equipped with pressure elements 23 directly acting on the elastic pad and pneumatic chambers (pneumocamera) 24 connected to the compression pulse shaper 4 by the pneumatic conduit 25. Hard shank 17 of the elastic pad 13 connected to the milk collector with an elastic milk outlet 26. The milk collector 7 is located in a cup holder 27 connected to the head housing 19 by a holder 28. Device provides for a quick (0.5-1 min) installation in the remote head of the elastic lining 13 (figure 2), milk collector 7 and milk pipe 26 (figure 3, 4). To do this, the elastic patch with the seat 16 is inserted into the neck holder 20, after which the patch 13 is pulled out and the grip of the shank holder 21 is inserted into the cylindrical section of the rigid shank adjacent to the seat 18, then the pull is loosened and the elastic patch 13 is fixed in the shank holder with the seat 18 .after that, the milk collector 7 is inserted into the cup holder 27 and the milk outlet 26 and the vacuum wire 10 are connected to the respective fittings.

 In the particular case of the remote head (Fig. 3), the axes 29 of the levers 22 are rigidly connected to the body, and the neck holder of the elastic pad 20 is part of the body 19. In this case, when using a vacuum source 2 as a source of pneumatic power, the configuration of the levers 22 must be changed, for example, as shown in Fig. 9, a (arrows indicate the place and direction of action of the pneumatic chambers 24 on the levers).

 In the particular case of the implementation of the remote head (Fig. 4), it is equipped with a double-lever mechanism 22, shown in Fig.5, a-e. When applying pressure pulses to the pneumatic chamber 24, the pressure elements 23 come together and squeeze the elastic pad 13. In this case, when the vacuum source is used as a pneumatic supply 2, the double-lever mechanism of FIG. 5, a-e is replaced by the double-lever mechanism of FIG. 9, b-g. When applying a vacuum pulse to the pneumatic chamber 24, the pressure elements 23 come together and compress the elastic pad 13.

 In the particular case of the implementation (Fig. 6) of the remote head, the axis 29 of the double wishbone mechanism 22 is connected to the housing via a hinge 30, and the holder of the shank of the elastic patch 21 is connected to the housing 19 by a flat spring 31. In this case, an additional chamber 32 is located in the remote head, which has a pneumatic conduit 33 connected to the output of the additional driver of pneumatic pulses 34 (figure 1), the input of which is connected to a source of pneumatic power 2. The additional driver of pneumatic pulses 34 includes an amplitude regulator 35 and an end pneumatic switch 3 6. Depending on what is used as pneumatic supply 2, the amplitude regulator 35 is a pressure regulator or a vacuum regulator.

 In the particular case of execution (Fig. 7), the axis 29 of the double-lever mechanism 22 has a shank 37 connected to an additional pneumatic chamber 32 mounted on the abutment of the housing 38. In addition, the pressing elements of the double-lever mechanism are equipped with rollers 39. In this case, the additional pneumatic chamber 32 is connected by a pneumatic conduit 33 to additional pulse shaper 34.

 The device operates as follows. When the pneumatic supply 1 and 2 are connected (Fig. 1) and the electric motor 5 is turned on, the end pneumatic switches 9, 12, 36 associated with the cam mechanism of the engine 5 begin to generate pneumatic pulses, shifted in time relative to each other (Fig. 8), the amplitude of which is set by the regulators amplitudes 8, 11, 35. From the output of the compression pulse shaper 4, the pneumatic pulses are fed through the pneumatic pipeline 25 to the pneumatic chamber (pneumatic chambers) 24 of the double-lever mechanism 22. From the output of the additional pulse shaper 34 through the pneumatic pipe 33, pulses are fed to the additional an additional pneumatic chamber 32. Vacuum pulses regulated in amplitude by a regulator 8 from a vacuum pulse shaper 3, through a pneumatic pipe 10 through a milk collector 7 and a pipe 26 enter the elastic overlay 13 of the remote head. When applying pneumatic compression pulses to the pneumatic chamber (pneumatic chamber) 24 of the double-lever mechanism 32, the pressure elements 23 provide rhythmic compression of the elastic lining 13 from the neck (Fig. 3, 4, 6, 7). The inner diameter of the neck of the elastic patch 13 at the point of exposure to the pressure elements is about 25 mm.

 Since the vacuum pulse begins earlier than the compression pulse (Fig. 8, a-c), by the time the compression pulse begins, the areolar region of the gland is pulled into the neck of the elastic lining. Therefore, the impact of the pressure elements 23 falls not on the nipple, but on the areolar region, which leads to compression of the milk sinuses.

 The presence of a rigid shank 17 (figure 2), as well as the large wall thickness of the lining 13 in the tail section does not allow the elastic lining to collapse during a vacuum pulse. Therefore, the compression ratio of the elastic patch decreases from the point of contact of the pressure elements with it towards the rigid shank 17. As a result, along with the impact on the mechanoreceptors of the nipple and areola, which provides the formation of a milk yield reflex, the double-lever mechanism 22 performs local rhythmic squeezing of the milk sinuses, which increases the rate of milk excretion . The amplitude regulator 11 allows the patient to change the compression force of the elastic pads during the procedure.

 In the case of the device in accordance with Fig.6, the additional camera 32 is rigidly connected to the rear wall of the housing, and the pusher of the pneumatic chamber passes through the hole in the rear wall of the housing and moves the holder of the shank 21, which is connected to the housing 19 by a flat spring 31. When used as pneumatic supply 2 of the vacuum source, the holder of the shank 21 is mounted on the rear wall of the housing 19 from the inside using a flat spring 31. When applying pulses to an additional pneumatic chamber 32, rigidly connected to the rear wall of the housing and 19 occurs pulling shank holder 21 to the rear wall of the housing.

 In the case of the device in accordance with Fig. 7, an additional air chamber 32 acts on the shank of the axis of the double-lever mechanism 37, which ensures rolling of the rollers 39 along the lateral surface of the elastic patch 13 in the direction from its neck to the shank. When using a vacuum source 2 as a pneumatic supply, an additional pneumatic chamber 32 will be located between the shank 37 and the bottom of the housing 19. Under the influence of vacuum impulses, the pneumatic chamber 32 will attract the shank 37 to the bottom of the remote head, which will ensure that the rollers 39 roll along the lateral surface of the elastic pad 13.

Claims (11)

 1. Device for milk removal and prevention of hypogalactia in women, comprising a remote head with an elastic pad, a milk collector and a vacuum pulse shaper connected to a pneumatic supply, characterized in that the portable head is equipped with a pneumatically controlled double-lever compression mechanism for an elastic pad connected to a pneumatic supply through a shaper compression pulses, and two holders of the elastic pad associated with the rigid body of the remote head, while the elastic pad is made removable and has two seats for mounting in holders.  2. The device according to claim 1, characterized in that the pneumatically controlled double-lever compression mechanism of the elastic pad contains two compression pneumatic chambers, each of which is placed between the housing and the levers, each of the levers being connected to the housing by its axis.  3. The device according to claim 1, characterized in that the pneumatically controlled double-lever compression mechanism of the elastic lining contains a compression pneumatic chamber located between the levers, while the levers are connected to the housing by one common axis.  4. The device according to claim 1, characterized in that the axis of the levers of the double-lever mechanism are rigidly connected with the housing of the remote head.  5. The device according to claim 1, characterized in that both holders of the elastic pads are rigidly connected to the body of the remote head.  6. The device according to claims 1 and 3, characterized in that the axis of the levers of the double-lever mechanism is pivotally connected to the housing of the remote head.  7. The device according to p. 1, characterized in that one of the holders of the elastic lining is rigidly connected to the body of the remote head, and the other is made with the possibility of removal from the body.  8. The device according to claims 1 and 3, characterized in that the remote head is equipped with an additional pneumatic chamber and an additional pneumatic pulse shaper connected to it, connected to a pneumatic supply source.  9. The device according to claims 1 and 8, characterized in that the additional pneumatic chamber is rigidly connected on one side to the body and, on the other, to the holder of the shank of the elastic patch.  10. The device according to claims 1 and 8, characterized in that the double-lever mechanism is equipped with rollers mounted on the compression elements of the elastic lining.  11. The device according to paragraphs. 1, 8 and 10, characterized in that the additional air chamber by its sides is rigidly connected with the housing and the shank of the axis of the double-lever mechanism.

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