KR20010003721A - Multi system of pressing milk - Google Patents

Abstract

PURPOSE: A multiple milking system and a vacuumizing equipment thereof are provided to have an adhering function to breast and a milking function at the same time and to prevent excessive vacuum pressure. CONSTITUTION: A vacuumizing equipment is characterized by comprising the followings: (i)a vacuum cylinder(2) which forms a closed space and a vacuum piston(1) which moves reciprocally upward and downward; (ii)a chamber(3) which is formed by the vacuum cylinder and the vacuum piston and an O ring(10) which controls flux between the chamber and ambient air; (iii)a sixth air passage(24) which is opened and closed by the O ring; (iv)a spring(14) which supports the vacuum piston; (v)a non-return valve(4) which controls air inflow from the container to chamber in a single direction; (vi)a fourth air passage(9) which is opened and closed by the non-return valve and a vacuum release button(11).

Description

MULTI SYSTEM OF PRESSING MILK

The present invention provides a reliable milking function by maximizing the vacuum capacity of the milking system, and also provides an attachment function and a milking function for attaching the attachment device to the breast by providing a dual structure attachment device in the attachment device attached to the breast. In view of its role as a vacuum device related to the human body, it is possible to provide a multipurpose milking system that enables safe and reliable control of vacuum pressure and to vacuum containers of various sizes using the container vacuuming device of the present invention. It is an object of the present invention to develop a free-size container vacuum apparatus and a combination of these to effectively and conveniently use a variety of vacuum apparatus.

Various types of milking systems have existed in the past. The milking system consists of a vacuum device, a hose, and an attachment device attached to the breast. The conventional ones have extremely low vacuum efficiency, making it difficult to carry out efficient milking. Came. The technical field of the present invention is not limited to the milking device but extends to the vacuum device of a general container. Although various types of vacuum apparatuses exist in the related art, the present invention has developed a more efficient and powerful vacuum apparatus, but the technical field of the present invention extends to various accessory apparatuses for efficiently utilizing the vacuum apparatus of the present invention.

The present invention increases the vacuum capacity of the vacuum device, steam the function of the attachment device to be attached to the breast to provide the attachment function to attach to the breast and at the same time as a double attachment device to steam the function, no matter how high vacuum pressure device Even if it is used in the human body in consideration of safety, the technical problem is to prevent the formation of excessive vacuum pressure above the most appropriate vacuum pressure. In addition, the technical problem of the present invention is to develop a vacuum device that can be applied regardless of the size of the container while at the same time inventing a powerful vacuum device and to use it more conveniently and efficiently.

1 and 2 are explanatory diagrams explaining the process of proceeding with the vacuumization of the milking system

3 is an explanatory diagram showing the configuration of the attachment device

4 is an explanatory diagram showing the configuration of the luterous cup

5 is an explanatory diagram illustrating the configuration of a vacuum pressure control valve.

6 is an explanatory diagram illustrating the configuration of the reverse displacement

Figure 7 is an explanatory diagram of the cupping cup of the cupping machine which is one of the present invention

8 is an explanatory diagram of a detachable free size vacuum apparatus of various coupling tools

9 is an explanatory view of the separable coupling coupling unit

10 is a configuration diagram combining 11 and 12 degrees

11 is an explanatory view of the vacuum apparatus of FIG. 8

12 is an explanatory view of a small free size coupling unit that can be separated

Figure 13 is an explanatory diagram of a large sized free-fit coupler that can be separated

14 is a diagram showing a combination of FIG. 13 and FIG.

Figure 15 shows an example of the use of a free size vacuum apparatus

16 is a configuration diagram of the investment-type vacuum device for forming the expansion wing on the side to sell the vacuum device into the container

17 is a block diagram of a vacuum apparatus in which an elastic body is formed in a stepwise manner.

18 is an explanatory diagram in which the sulphate coupler of the present invention is directly attached to a vacuum apparatus without a hose;

19 is an explanatory diagram of a breast pump coupling directly attached to a vacuum apparatus

20 is an explanatory diagram of a double cup pump coupling unit directly attached to the vacuum apparatus

21 is an explanatory view of a vacuum cup directly attaching a double cup pump coupling unit formed with a support

22 is another explanatory view of a vacuum cup directly attaching a double cup pump coupling unit formed with a support;

23 is a use state diagram of the breast pump of the present invention equipped with a vacuum cup directly attaching a double cup breast pump fitting having a support portion;

24 is an explanatory diagram of a multiple vacuum apparatus forming a multiple vacuum chamber

25 is an explanatory diagram of a multi-pump cup forming a multi-vacuum chamber

26 is a block diagram of a multi-vacuum device forming a multi-vacuum room

27 is an explanatory diagram of a vacuum apparatus in which a vacuum space portion of a large and small size is formed;

28 is an explanatory diagram of a multiple lute cup

29 is an explanatory diagram of a multi-pump cup

《Description of Major Symbols in Drawings》

DESCRIPTION OF SYMBOLS 1 Vacuum piston 2 Vacuum cylinder 3 Chamber 4 Reverse valve 5 Hose 6 1st air path 7 2nd air path 8 3rd air path 9 4th air path 10 O-ring 11 Vacuum release Button 12: Push Rod 13: Body 14: Spring 16: Vacuum Pressure Control Valve 17: Fifth Air Path 18: Hose Connector 19: Outer Cup 20: Inner Cup 21: Reverse Side 22: Milking Path 23: Hose 24: 6 air passage 25: hose 26: reverse displacement space 27: reverse displacement 28: sulphate cup 29: elastic sulphate cup 30: elastic 31: reverse mutant 32: sulphate cup base 33: support 34: micro-perforated 35: modified body 38: elastic body 39 : Protruding coupling part 40: Strain coupling part 41: Protruding coupling part 42: Air passage 43: Hose connector 44: Small free size coupling part 45: Large free size coupling part 46: Elastic body 47: Container 48: Buried expansion blade 49: Elastic body 50: container 51: staircase elastic body 52: container 53: extension wing 54: vacuum device 55: elastic body 56: vulcanization Sphere 57: Handle 58: Pulsating cup connection 59: Suppression coupler 60: Handle 61: Breast circumference 62: Breast cup 63: Nipple guide portion 64: Breast coupling unit 65: Handle 66: Breast feeding 67: Multiple breast coupler Outer cup 68: Inner cup 69: Nipple guide 70: Reverse side 71: Supporting hole 72: Support 73: Nipple guide 74: Vacuum device 75: Breast pump coupling 76: Breast 77: Outer cup space 78: Inner cup Space 79: Nipple guide 80: Outer cup 81: Nipple guide 82: Support 83: Reverse side 84: Breast milk bottle 85: Vacuum release button 86: Vacuum piston 87: Handle 88: Multiple vacuum cup 89: Outer cup 90 : Intermediate cup 91: Inner cup 92: Supporting part 93: Through hole 94: Air passage 95: Reverse side 96: Vacuum apparatus mounting part 97: Reverse side 98: Multiple breast cup 99: Outer cup 100: Middle cup 101: Inner cup 102: Support part 103: nipple guide 104: nipple position portion 105, 106: reverse side 107: milking passage 108: multiple vacuum apparatus 109: outer cup 110: middle cup 111: inner cup 112, 113: reverse side 114: inner air passage 115: middle air passage 116 :outside Air passage 117, 118, 119: the reverse side 120: the outer cup space 121: the middle cup space 122: the inner cup space 123, 124: the reverse side 128: rich cup vacuum device 129: mother cup 130: son cup 131: son cup space 132: Mother cup space 133,134: Reverse side 135: Vacuum device coupling unit 136: Reverse side 137: Multiple sulfur cup 138: Outer cup 139: Outer middle cup 140: Inner middle cup 141: Inner cup 142: Skin 143: Inner cup space 144: the inner middle cup space 145: the outer middle cup space 146: the outer cup space 147: the inner cup air passage 148: the inner medium air passage 149: the outer middle air passage 150, 151, 152: the reverse side 153: vacuum device coupling unit 154: Reverse zone 155: Multiple breast cup 156: Outer cup 157: Outer cup space 158: Outer middle cup 159: Outer middle cup space 160: Inner middle cup 161: Inner middle cup space 162: Inner cup 163: Milking channel Seal silicone 164: Vacuum unit coupling part 165, 166, 167: Reverse side 168: Breast

The present invention provides a milking system comprising a vacuum device for vacuuming, an attachment device for milking by attaching to a mother, and a vacuum pressure control valve for controlling vacuum pressure, and various devices for applying the milking system to other medical fields. The present invention relates to a free-size container vacuum apparatus and its accessories capable of rapidly responding to various container sizes. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 illustrates the technical configuration of the most basic vacuum apparatus of the present invention.

The vacuum apparatus of the present invention is composed of an inflow step of introducing the air in the container into the chamber and a discharge step of discharging the air introduced into the chamber to the outside again. First, the inflow step will be described with reference to FIG.

1 is a view for explaining a process of extracting the air in the container by using the vacuum pump device of the present invention. When the vacuum piston (1) is pressed, the space of the chamber (3) is expanded. When the space of the chamber is expanded, the pressure in the space drops, the reverse valve (4) is opened and the air in the container is opened and closed by the reverse valve. The air flows into the chamber (3) via the fourth air passage (9), through the reverse displacement space (26), and through the third air passage (8) formed in the vacuum cylinder next to the reverse displacement space (26). Will be. While the vacuum piston (1) is pressed, air is introduced into the chamber from the container in this way. In the vacuum cylinder, a second air passage (7), which is an air passage through which outside air flows into the chamber (3), is formed. In the middle of the second air passage (7), the zero ring for opening and closing the sixth air passage (24) is located. When the 0 ring is opened, the air in the chamber may go to the outside air through the second air passage 7 and the sixth air passage 24, and the air of the outside air may be introduced into the chamber. In the inflow step, since the sixth air passage 24, which is an air passage between the outside air and the chamber, is sealed by the 0 ring, the inflow of outside air does not exist in the chamber. The rapid opening of the reverse valve (4) in the inlet stage plays a significant role in increasing the vacuum efficiency. In the inflow stage, the force for opening the reverse valve plays a major role in the vacuum pressure formed in the chamber, but in the configuration of the present invention, another positive force can be found. That is, the reverse displacement (4) is opened by the vacuum pressure in the chamber, and also the reverse displacement space (26) is formed by the vacuum pressure in the chamber (3), which draws the vacuum release button (11). Then, the vacuum release button pulled in this way will push the reverse push rod (12) down again and this force will press the reverse force (4) again. The force that presses the reverse displacement acts as a force to open the reverse displacement, which is combined with the force that opens the reverse displacement by the vacuum pressure in the chamber and contributes to opening the reverse displacement. If the vacuum piston 1 continues to descend in the inflow stage, the first air passage 6 formed on the upper portion of the vacuum piston also descends. The present invention configures the position of the first air passage 6 such that the first air passage 6 and the O-ring 10 intersect at the position immediately before the vacuum piston reaches the lowest point. When the vacuum piston descends and the first air passage 6 meets the O-ring 10, the outside air pushes the O-ring up. At this time, the sixth air passage 24 which is closed by the O-ring is opened and the outside air is introduced into the chamber through the first air passage 6 and the sixth air passage 24. The vacuum pressure in the chamber is changed to atmospheric pressure. When the pressure in the chamber changes to atmospheric pressure, the reverse displacement space 26 also becomes atmospheric pressure, and the reverse displacement 4 is immediately blocked. Considering the resistance received when the vacuum piston is pressed in the inflow stage, there are two types of resistance in the present invention. In other words, there are two types of resistances: restoring force by the spring 14 formed under the vacuum piston and vacuum resistance force by the vacuum pressure in the chapter 3. Two types exist when going to the vacuum piston. When the vacuum piston reaches the lowest point, the pressure in the chamber becomes atmospheric pressure, so the vacuum resistance is lost. That is, the vacuum piston 1 has only the resistance of the restoring force by the elastic force by the spring (14).

Hereinafter, a process of discharging the air of the container introduced into the chamber to outside air based on FIG. 2 will be described. The evacuation step proceeds when the vacuum piston rises. 2 is an explanatory diagram for explaining a process when the vacuum piston rises. When the force that presses the vacuum piston is released, the vacuum piston is raised by the elastic force of the spring 14 so that the air in the chamber 3 is discharged to the outside air. The initial state of the air in the chamber at the start of the discharge is the state formed at atmospheric pressure by opening the 0 ring (10). As such, the air in the atmospheric pressure in the chamber is compressed by the air in the chamber as the piston rises, and the compressed air causes the zero ring to be lifted up to connect the sixth air passage 24 to the chamber. It is open. Therefore, the air in the chamber is discharged to the outside through the sixth air passage 24 and the second air passage (7) through the discharge process. At this time, the air in the chamber is also moved to the reverse variable space (26) through the third air passage (8), but since the fourth air passage (9) is blocked by the reverse variable (4), there is no further air flow. do. In the present invention, when the vacuum piston continues to rise through the discharge process to reach the highest point, there is no space in the chamber at all, the last state of the discharge process is the start state of the inflow step. Ideally, the space in the chamber should be zero in the initial state of the inlet phase in order to efficiently build the vacuum pressure. Because if you press the vacuum piston and press the vacuum piston when there is no space in the chamber, the pressure inside the chamber is formed by the pressure of the perfect vacuum, which immediately opens the reverse displacement with strong force. Because it is. The vacuum apparatus of the present invention is to discharge the air in the container to the outside by repeating the inflow process of FIG. 1 and the discharge process of FIG. Hereinafter, the vacuum of the container will be described. When the vacuum release button 11 shown in FIG. 1 or 2 is pressed, the push rod 12 is pushed downward, and the push rod presses the reverse shift 4 again. When pressed, the fourth air passage 9 is forcibly opened, and the atmospheric pressure quickly moves into the container, and the vacuum in the container is released. 3 is an explanatory diagram of an attachment device connected to a vacuum device and attached to a breast of a mother. The attachment device is composed of the outer cup 19 and the inner cup 20, the air and milk is passed through the milking passage 22, the reverse side 21 is installed on one side of the milking passage of the outer cup In the space, only the air escapes into the milking passage 22 and as the milk comes out, the vacuum pressure in the outer cup does not drop by the function of the reverse displacement so as to keep the breast attached to the function. In other words, the pressure of the space formed between the epidermis of the breast and the inside of the outer cup and the outside of the inner cup ensures vacuum pressure by the function of reverse displacement, thereby maintaining the function of keeping the breast without sticking. In addition, the space formed by the epidermis of the breast and the inner cup 20 is vacuumed by the operation of the vacuum apparatus, and the milk pressure begins to flow out, and the vacuum pressure drops. The degree of vacuum will increase, which in turn will drain the milk. Conventional attachment device does not have an outer cup, so as the milk is leaked out of the breast as the outflow, but this problem is solved by the function of the outer cup of the present invention. Although not shown in the drawing, in order to prevent the epidermis of the breast from being sucked up by the vacuum pressure in the space between the outer cup and the inner cup, it is made of soft like silicon to prevent the epidermis of the breast from being sucked up. It also belongs to the present invention.

Figure 4 shows the configuration of the sulfuric acid in order to explain the application of the vacuum device of the milking system of the present invention to the sulfuric acid. The sulfur cup (28) is attached to the reverse side valve 27 and is connected to the vacuum device of the present invention through the hose 25 can be used as a sulfur incubator. Therefore, the milking system of the present invention can be used not only for milking machine but also for sulfur use. 7 is an explanatory diagram of a luterous cup which is one of the present invention. Conventionally, the cups have been made of a material that cannot be deformed, such as glass, but in the present invention, the cups are made of a deformable elastic material such as silicon. When the volume is released at least with the cup cup base on the next skin, this pressure in the cup cup will be vacuumed by the force to return the cup cup to its original shape. If the vacuum pressure is weak, if the elastic body 30, such as a leaf spring additionally installed in the elastic huang cup (29) can be further ensured the degree of vacuum. The elastic body may be of various kinds. In the case of the elastic sulphate cup, there may or may not be a reverse branch 31. Because when you want to release the vacuum squeeze the elastic cup.

5 is an explanatory diagram showing the configuration of a vacuum pressure control valve to be used in the present invention. The vacuum pressure control valve serves to stop the function of the vacuum device when the vacuum pressure of the vacuum device is less than a predetermined vacuum pressure determined when the vacuuming proceeds. The vacuum pressure control valve is located in the air passage in the vacuum apparatus as shown in FIG. 1, and the specific configuration thereof is shown in FIG. A plurality of minute holes 34 are formed in the cylindrical support 33 with the top and bottom blocked, and a film of the expandable deformable body 35 is coated on the outside thereof so that a constant vacuum pressure is initially set inside the deformable body. . When the evacuation is performed inside the vacuum apparatus, when a lower vacuum pressure than the set vacuum pressure of the vacuum control valve proceeds, the deformation of the vacuum control valve in the air passage expands to block the air passage. The vacuum can be prevented from proceeding. 6 illustrates the configuration of the reverse displacement used in FIGS. 3 and 4, and various modifications are possible. That is, the valve 36 is supported by the spring 37 as a device for advancing the air flow in only one direction, and the air can flow only in one direction. 7 is an explanatory diagram of an improvement in the sulphate cup. Conventional sulfur cup is composed of a solid material such as glass and a device for evacuating the air in the sulfur cup from the outside was necessary. In the present invention, the sulfur cup is configured so that the sulfur cup itself can form a vacuum without the need for an external vacuuming device. It is composed of an elastic sulphate cup 29 and a sulphate cup base 32 formed of an elastic body such as silicone, and squeeze the elastic sulphate cup by hand and place it on the skin to restore the elastic sulphate cup to its original shape. Vacuum pressure is formed. At this time, when the elastic recovery force is weak, it is possible to increase the restoring force by inserting an elastic body 30 such as a spring or a leaf spring into the elastic huang cup. In the case of the elastic sulphate cup of the present invention, even if there is no reverse valve 31, the function can be done. That is, when releasing the vacuum pressure, the pulverized elastic cup is once again released. 8 is an explanatory view for explaining a free-size container vacuum apparatus capable of separate coupling using various coupling tools. The vacuum apparatus of the present invention is configured to have a function of vacuuming containers of various sizes in order to expand its application. The conventional binjin factory is made to correspond only to the size of the container per row, so if the size of the container is changed, the binjin factory can not be used. The present invention was formed in the bottom of the vacuum device to form a band of the elastic body 38 in a wide range around the air passage in which air is introduced into the vacuum device in the bottom of the vacuum device and attached to the vacuum device. Containers of various sizes are strongly bonded by the force of vacuum pressure by an intermediate body of the vacuum apparatus. Since the vacuum apparatus of the present invention has a strong vacuuming capability, it is difficult to separate the vessel and the vacuum apparatus of the present invention until the vacuum release button is pressed to release the vacuum. 9 is an explanatory view of a breast pump coupling device manufactured in a removable form in the vacuum apparatus of the present invention. The coupling protrusion 39 formed at the lower part of the presized vacuum apparatus configured to detachably couple the various coupling tools described in FIG. 8 and the coupling protrusion 41 of the oil coupling coupling 40 are coupled to the milking system. It is used. The pumping coupling hole 40 of the present invention forms an air passage 42 in the center of the body, and the end of the air passage constitutes a hose connector 43 to which a hose can be connected. Various separable couplers used in the present invention can be pushed through the coupling protrusions 38 and 41, but the coupling structure by screws is also extremely easy. FIG. 10 is a diagram illustrating a combination of the presize vacuum device shown in FIG. 8 and the pumping coupler shown in FIG. 12 is an explanatory view of a small size free size coupler that can be detachably coupled. The presized vacuum apparatus shown in FIG. 8 can combine vessels of various sizes within the range of the elastic body 38, but in order to accommodate them in a wider vessel size, a coupling tool such as that shown in FIG. There is a number. That is, the coupling protrusion is configured to be detachably coupled to the lower end of the presized vacuum apparatus on the body to which the elastic body 46 formed over a wide range is attached. FIG. 12 is an explanatory view of a large free size coupler, which is a coupler for joining a container of a larger size than the small free size coupler shown in FIG. By forming an extension wing 53 that extends further than the small size free size coupling sphere, it is possible to evacuate a container of a large size. The shape of the extension blade may be straight or it may be curved. In other words, the center of the coupling can be formed high so as not to collide with the contents of the container. At this time, the elastic body is also formed to be curved. In addition, the shape of the elastic body may be formed in a stepped shape in the shape of a concentric circle. Various devices of the present invention make it possible to use a vacuum device more efficiently as auxiliary devices for evacuating containers of various shapes and various sizes. The free size vacuum container of the present invention forms a wide range of elastic bodies in a vacuum apparatus to vacuum various sizes of containers, and in another form, combines a narrow type elastic body in a vacuum apparatus and forms a wide width of the containers. Includes the possibility to combine containers of size. As an embodiment thereof, there is a method of combining various sizes of containers and vacuum devices by forming a wide portion in the container that can be combined with a vacuum device, as shown in FIG. 30. FIG. 14 is a free size vacuum device of the present invention and the present invention. It is explanatory drawing explaining the vacuuming of a container by combining the coupling tool which formed the expansion blade 53 of the. 15 is an exemplary view showing the use of the free size vacuum device of the present invention to vacuum the container 47 without using another attachment device. Any size container within the range of the elastic body 46 can be immediately evacuated and attached. FIG. 16 is a configuration diagram of the investment type vacuum device in which the expansion blade 48 is formed on the side of the vacuum device and the vacuum device is buried so as not to be seen from the outside. 17 is an explanatory view showing that the elastic body is formed stepwise in the form of concentric circles. Various devices of the present invention shown above are those for making container vacuuming convenient and easy. FIG. 18 is an explanatory view in which the present invention sulphate coupler 56 is coupled to the present invention presized vacuum apparatus 54 having an elastic body 55. It is also possible to connect the sulfur-containing coupler via a hose, but as shown in FIG. 18, the sulfur-containing coupler may be directly coupled to the vacuum device 54 by a coupling method such as screwing. To use, first, connect the lute cup to the lute cup connection 58, then hold the handle 57 and reciprocate the vacuum piston two or three times, press the vacuum release button, and release the lute cup, the lute cup is vacuum pressure. It can form a convenient and can be vulnerable. 19 is an explanatory view for explaining the use of the present invention, the coupling coupler directly connected to the vacuum apparatus. A breast feeding container 61 for holding breast milk is provided, and a breast feeding coupler having a breast cup in which a nipple guide portion 63 is formed of an elastic body such as silicone that the nipple can be tightly coupled to the vacuum device. I was able to milk myself using this invention breast pump. In other words, the nipple guide is placed on the breast and the handle 60 is held by both hands, and the finger is used to reciprocate the vacuum piston. At this time, if you want to release the vacuum pressure by pressing the vacuum release button to stop the milk is appropriate. Figure 20 illustrates a more convenient breast pump coupling device of the present invention. The outer cup 67 and the inner cup 68 is composed of a nipple guide 69 is formed in the inner cup. The milking passage is formed into the inner cup, and the milk enters the breast milk through it. An outer cup space portion 77 is formed between the outer cup and the inner cup, and a reverse valve 70 is formed between the outer cup space portion and the shaft flow passage. ) Is formed. 21 shows that the nipple guide portion 79 of FIG. 20 is extended to the outer cup space portion, and many through holes 71 are formed in the outer cup space portion. FIG. 22 uses the nipple guide of FIG. 20 as it is, and constitutes a separate net having a plurality of holes formed in the outer cup space. FIG. 23 is an explanatory view illustrating milking by directly coupling the double cup breast pump of the present invention to a vacuum apparatus. Insert the nipple into the nipple guide 81, hold the handle 87 with both hands, and operate the vacuum piston 86 two or three times to form a vacuum pressure so that the pressure in the outer cup space 77 and the nipple guide is vacuum pressure. Becomes When the milk starts to flow out, the pressure in the nipple guide portion 81 gradually decreases, but the pressure in the outer cup space portion 77 maintains the same vacuum pressure due to the function of the reverse displacement 83, thereby the breast pump of the present invention. Make sure you can stay strong. Therefore, since the breast pump of the present invention is strongly attached to the breast, milking becomes easy. As the milk continues to come out, if the vacuum pressure to suck out the milk drops, the vacuum piston is reciprocated again two or three times, and a strong vacuum pressure is formed again. When pressing the vacuum release button with the right stop finger while milking, the outer cup space maintains the vacuum pressure as it is. The breast pump of the present invention is strongly attached to the breast and the pressure of the nipple guide portion sucking the nipple becomes atmospheric pressure to feel comfortable. If you continue milking, you will get sick, so press the middle vacuum release button to release the nipples while milking the ideal environment. In addition, the present invention has a solid breast pump without using a hose, so the breast pumping force is repeatedly repeated by pushing and pushing the breast pump of the breast pump with both hands. It becomes the number. Pressing the vacuum release button in the middle as described above, while releasing the vacuum pressure of the nipple is strongly vacuumed and at the same time, the breast pump is applied to the entire breast by the operation of pulling or pushing the breast pump of the present invention with both hands. By doing this, you can massage your breasts so that you can milk with efficiency. Even if it is pushed or bulging as a whole, the breast pump of the present invention is not released from the breast by the vacuum pressure of the outer cup space part. In order to prevent the invasion of the skin of the breast by the vacuum pressure of the outer cup space, the support part is formed with a number of holes. FIG. 25 is an invention of a multi-vacuum device, which can be used as a multi-vacuum cup of a sulfur cup. have. As an example, three cups may be formed, but a plurality of cups may be formed. A reverse valve 95 may be used between the air passage 94 in the center and the space formed by each cup, or a simple through hole may be used. 93) it is possible to evacuate the space of each cup. FIG. 25 is a diagram illustrating a plurality of vacuum chambers formed by applying the multiple dust mills of FIG. Even if the vacuum pressure of one vacuum chamber is lost, the vacuum pressure is maintained in the other vacuum chamber so that the breast pump of the present invention is not released from the breast. 26 is an explanatory diagram for explaining another embodiment of the present invention for forming a multiple vacuum chamber. A plurality of cups are connected to each other through the reverse side 112, 113, 117, 118, 119 to show a variety of ways to maintain the vacuum pressure of each space. FIG. 27 is an invention in which the son cup 130 forming a small space portion is formed to vacuum the son cup space portion 131 to easily and quickly attach the entire container. 28 is an explanatory view for explaining the application of the vacuum cup forming the multiple vacuum chamber of FIG. FIG. 29 is an explanatory diagram for explaining the application of the multiple vacuum cup of FIG. 26 to the breast pump. By using such a multi-vacuum cup, not only breast milk can be used conveniently as a health device of the breast. In other words, the vacuum pressure of the nipple guide is released by pressing the vacuum release button, the user can enjoy the effect of massaging the breast while pushing and pulling the whole present invention with both hands. It is also included in the present invention that the various attachment holes and the vacuum device that are detachable throughout the present invention are integrally formed. In addition, the elastic body in this invention is not limited to a xylocon as the example, but also contains elastic rubber | gum, an elastic vinyl, etc. with a fine structure.

The present invention provides an extremely efficient vacuum device, adds a control function for controlling the vacuum pressure to utilize this in the human body, and the function to make the attachment device attached to the breast in the milking system and the milking function to milk It provides a convenient and efficient milking system by forming a cup of dual structure to have at the same time. The vacuum device of the present invention can be applied to various types of medical devices by ensuring stability. Milking system of the present invention can be applied in various forms as it is a configuration that can be applied as it is in the off-season. In addition, the present invention is configured to enable the vacuum of a wide range of containers of various sizes using a single vacuum device.

Claims (22)

A vacuum cylinder (2) forming a closed space, a vacuum piston (1) which vertically reciprocates in the vacuum cylinder, a chamber (3) formed by the vacuum cylinder and the vacuum piston, the chamber and the outside air O-ring 10 for controlling the flow of air, the sixth air passage 24 is opened and closed by the O-ring, the spring 14 holding the vacuum piston and the air in the container only flows into the chamber It characterized by consisting of a vacuum device formed by the reverse side (4) and the fourth air passage (9) vacuum release button 11 to be opened and closed by the reverse side, and the attachment device attached to the breast so as to control the possible Milking system. 2. The milking system of claim 1, wherein the attachment device consists of a double cup. The milking system according to claim 1 or 2, wherein the air passage includes a vacuum control valve. Milking machine consisting of a vacuum coupling device and a breast pump coupling that can be attached to and detached from the vacuum device by a coupling means. Two or more plural cups are placed in multiple overlapping and the women's breast movement apparatus characterized in that they are vacuumed through a vacuum device by interconnecting them through a reverse valve and an air passage The outer cup 18, the inner cup (19) and the reverse side (20) consisting of an attachment device that can satisfy the attachment function and milking function to the breast at the same time. Multi-vacuum device used for vacuum device by connecting two or more cups through reverse side and air passage A vacuum cylinder (2) forming a closed space, a vacuum piston (1) which vertically reciprocates in the vacuum cylinder, a chamber (3) formed by the vacuum cylinder and the vacuum piston, the chamber and the outside air The zero ring 10 which controls the flow of air of the air, the sixth air passage 24 whose opening and closing is determined by the zero ring, the spring 14 holding the vacuum piston and the air in the container only flow into the chamber. And a vacuum device formed of a reverse valve (4) and a fourth air passage (9) vacuum release button (11) opened and closed by the reverse valve. 9. The scavenger according to claim 8, wherein a vacuum control valve is formed in the air passage. Sulfurizer formed by a vacuum device and a sulphate coupler that is attached to and detached from the vacuum device through a coupling means. Sulfur cups, characterized in that for producing the material of the sulfur cup using an elastic body. By attaching an elastic body formed in a wide range around the air passage into which the air flows from the container to the vacuum device, the container having various sizes can be attached to the vacuum device by vacuum pressure. Free Size Container Vacuum Cleaner. By forming a wide range on the upper surface of the container, the vacuum device, which is coupled to the elastic body and the air passage in which air flows from the container to the vacuum device, can be accommodated and vacuumized. A method for vacuuming a free sized container, characterized in that various containers can be attached to a vacuum apparatus by vacuum pressure. Coupling tool having expansion wing with elastic body attached and detachable to vacuum device through fastening means The coupling tool according to claim 14, wherein the elastic body is formed over a wide range. 16. A coupler according to claim 14 or 15 wherein the elastic body is silicone. The coupling tool according to claim 14 or 15, wherein the binding means is a screw coupling. A coupler according to claim 14 or 15, wherein the elastic body forms a curved surface. A pumped coupling unit that has a hose connector and an air passage in the body and forms a binding means for binding to a vacuum device. An inner cup and a nipple guide formed in the inner cup and an outer cup are formed on the outside of the inner cup, an outer cup space formed by the outer cup and the inner cup, and a milking passage formed by the nipple guide. Breast pump connected by reverse displacement. An inner cup and a nipple guide formed in the inner cup and an outer cup are formed on the outside of the inner cup, an outer cup space formed by the outer cup and the inner cup, and a milking passage formed by the nipple guide. A breastplate coupler connected to a vacuum device with a breastcup connected by reverse displacement. A presize vessel vacuum apparatus in which an elastic body is formed in a wide range around an air passage through which air flows from a vessel to a vacuum apparatus, wherein the shape of the elastic body is stepped in a concentric circle.