RU2797182C1 - Fluid transfer device - Google Patents

Abstract

FIELD: fluid transfer device.

SUBSTANCE: device includes the first plate with the first surface and the second surface; the second plate with the third surface and the fourth surface, part of the third surface and part of the second surface of the first plate are soldered or glued to at least one ribbon-like region, thereby forming the first chamber, which contains at least the first drainage hole, and the interior of the chamber can communicate with the outside through the first drainage hole; adhesive layer, which is located on the fourth surface of the second plate; and a separating layer that covers at least a part of the adhesive layer, wherein the first drainage hole is formed on the first plate or in the open part, where the first plate and the part, near the edge of the second plate, are not soldered or glued to each other.

EFFECT: fluid transfer device is provided.

25 cl, 35 dwg

Description

FIELD OF TECHNOLOGY

[0001] The present invention relates to a fluid transfer device, and in particular to a fluid transfer device that can enhance figure, allow fluid for personal care/medical use, or collect biological fluids.

BACKGROUND OF THE INVENTION

[0002] Human survival is highly dependent on fluids, especially air and water. For the human body, fluids are sometimes a necessity and sometimes a burden. Fluids are necessary for the human body in a number of cases such as urinalysis, breast enlargement, skin care, wound care, cooling or keeping warm, maintaining hydration, breastfeeding, etc. Fluids are a burden on a person in a number of cases when they are processed biological fluids (breast milk, urine, semen, blood), etc.

[0003] Although several solutions have been found to address the need for fluids or their burden on the human body, there are still many gaps. For example, to meet the needs of women with small breasts, bra pads are easily displaced, invisible bras lose their stickiness after repeated use, and fluid implantation surgery (salt implants, silicone implants) is painful and expensive. In terms of burden relief, for example, infants and bedridden women face pain with urinary catheterization and risk of infection when collecting urine, people with urinary incontinence experience discomfort when wearing diapers or have difficulty using any type of urine collection bag leading to leakage of urine.

SUMMARY OF THE INVENTION

[0004] In view of the above problems, the present invention provides a fluid transfer device for temporarily holding fluids on a body surface that is easily adhered to a human body and is not easily peeled off. This invention is able to collect various fluids and more, such as water, air, skin care products, liquid drugs, milk, urine, semen or blood without leakage, thereby satisfying human needs for fluids and freeing the body from the burden of fluids. avg. The present invention provides a simple design that is easy to use and low cost. This invention can be widely used and is able to correctly analyze the relationship between human bodies and fluids.

[0005] In order to achieve the above objects, the present invention provides a fluid transfer device comprising a first plate that includes a first surface and a second surface; a second plate having a third surface and a fourth surface, a third surface part and a second surface part of the first plate are soldered or glued to at least one ribbon-like region, thereby forming a first chamber that contains at least a first drainage hole, and the inside of the chamber can communicate with the outside through the first drainage hole; an adhesive layer provided on the fourth surface of the second plate; and a separating layer that covers at least part of the adhesive layer, wherein the first drainage hole is formed on the first plate or in the open part, where the second surface of the first plate and the third surface, near the edge of the second plate, are not soldered or glued to each other. friend. If necessary, a supporting structural element is additionally provided, which extends along the edge of the first plate or the second plate.

[0006] According to one embodiment of the present invention, a third plate is provided between the first plate and the second plate, a second chamber is formed between the third plate and the second plate, and the edges of the third plate may be soldered or glued between the first plate and the second plate at the same time, or to the first plate, or to a second plate.

[0007] According to one embodiment of the present invention, the edge of the second plate is larger than the outer edge of the ribbon-like region, and there is a gap between the outer edge of the ribbon-like region and the edge of the second plate.

[0008] According to one embodiment of the present invention, the fluid transfer device further comprises a fifth plate, a portion of the fifth plate is connected to the surface of the first plate and includes a liftable portion, wherein the liftable portion is larger than the first drainage hole and can completely cover the first drainage hole.

[0009] According to one embodiment of the present invention, the first drainage hole comprises a first raised part of the first plate, and the surface of the first plate further comprises a sixth plate, and the edge of the sixth plate is connected to the first plate in a closed manner in the form of a stroke of the first raised part of the first plate or connected to the first plate and the second plate at the same time and contains an opening, and the opening is smaller than the first raised part of the first plate and can be completely closed by the first raised part.

[0010] According to one embodiment of the present invention, the fluid transfer device further comprises a drain portion that is connected to the first drain hole or the sixth plate hole. If necessary, the drainage part further comprises a check valve that prevents fluid from flowing from the inside of the first chamber to the outside through the drainage part or from the outside of the first chamber to the inside. Optionally, the drain portion is a drain tube that is installed in correspondence with the first drain hole or the hole of the sixth plate. If necessary, the drain tube is formed by aligning the two side edges of the two seventh plates so that the drain tube is naturally flat.

[0011] According to one embodiment of the present invention, the inner surface of the drainage part contains an insulating material that is clamped, coated or printed before the formation of the drainage part.

[0012] According to one embodiment of the present invention, the drainage part is a drainage bag, which is installed corresponding to the first drainage hole or the hole of the sixth plate. If necessary, the drainage bag is formed by sealing all or part of the edges of the two seventh plates, or by folding the eighth plate in half and sealing all or part of the edges of the eighth plate. If necessary, the first plate contains the first raised part; the drainage bag contains a second liftable part, which is larger than the first liftable part, the first plate is connected to the drainage bag in a closed manner in the form of a stroke of the first liftable part and the second liftable part; and the first lifting part is connected to a part of the second lifting part. Optionally, the fluid transfer device further comprises a plate with a belt loop, which is connected to the outside of the drainage bag and forms a passage for inserting a fastening belt.

[0013] According to one embodiment of the present invention, the first plate includes a retractable portion that can be used as a seventh plate or an eighth plate, or can be folded back into a belt.

[0014] According to one embodiment of the present invention, the edge of the first plate or the second plate is provided with a fastener for connection with another fluid transfer device.

[0015] According to one embodiment of the present invention, the first plate or the second plate includes petal edges or wavy edges for better attachment to non-planar surfaces.

[0016] According to one embodiment of the present invention, the second plate includes at least a second drain hole so that the inside of the first chamber or the inside of the second chamber can communicate with the outside through the second drain hole. There is a gap between the second drainage hole and the inner edge of the ribbon-like region. The size of the second drainage hole is not particularly limited, for example, the size may be larger for connection with the glans penis, genitals and nipples of a woman, or smaller just for fluid flow. Optionally, this embodiment of the invention further comprises a drain hole structural support member that extends along the edge of the second drain hole with an adhesive strength weaker than the adhesive layer. Optionally, this embodiment of the invention further comprises an air-permeable or liquid-permeable plate that is mounted on the second drain hole. Alternatively, a plurality of small and densely spaced second drainage holes are machined and formed on at least a portion of the second plate. Optionally, this embodiment of the invention further comprises a second drain tube that is connected to the second drain hole.

[0017] According to one embodiment of the present invention, a vibrating device or an unloading device is further provided, which is mounted on the first plate.

BRIEF DESCRIPTION OF THE DRAWINGS

[0018]

FIG. 1 shows a schematic representation of a fluid transfer device in accordance with the present invention;

FIG. 2A - FIG. 2C shows schematic representations of another embodiment of a fluid transfer device;

FIG. 3 shows a schematic representation of another embodiment of a fluid transfer device;

FIG. 4 shows a schematic representation of another embodiment of a fluid transfer device;

FIG. 5A - FIG. 5E show schematic representations of another embodiment of a fluid transfer device;

FIG. 6A - FIG. 6B shows schematic representations of another embodiment of a fluid transfer device;

FIG. 7A - FIG. 7G show schematic representations of another embodiment of a fluid transfer device;

FIG. 8A - FIG. 8C show schematic representations of another embodiment of a fluid transfer device;

FIG. 9A - FIG. 9C show schematic representations of another embodiment of a fluid transfer device;

FIG. 10 shows a schematic representation of another embodiment of a fluid transfer device;

FIG. 11 shows a schematic representation of another embodiment of a fluid transfer device;

FIG. 12A - FIG. 12B shows schematic representations of another embodiment of a fluid transfer device;

FIG. 13 shows a schematic representation of another embodiment of a fluid transfer device;

FIG. 14 shows a schematic representation of another embodiment of a fluid transfer device;

FIG. 15A - FIG. 15B shows schematic representations of another embodiment of a fluid transfer device;

FIG. 16 shows a schematic representation of another embodiment of a fluid transfer device.

DETAILED DISCLOSURE OF THE INVENTION

[0019] Specific embodiments of the present invention are described below with reference to the accompanying drawings, in which the same or similar components are identified by the same reference numerals.

[0020] FIG. 1 shows an embodiment of the present invention. The fluid transfer device 10 comprises a first plate 11 with at least a first drainage hole 12, in which the first plate 11 comprises a first surface S1 and a second surface S2, and the second plate 21 comprises a third surface S3 and a fourth surface S4. Part of the third surface S3 and part of the second surface S2 of the first plate 11 are connected (soldered or glued) to at least the ribbon-like region 1121, thereby forming the first chamber R1, which contains at least an opening in which fluids can be stored . The inside of the first chamber R1 may communicate with the outside through the first drainage hole 12. The edge of the first plate 11 and the edge of the second plate 21 may, among other things, be aligned with each other. On the fourth surface S4 of the second plate 21, an adhesive layer 22 is provided for adhering to the user and also for attaching the fluid transfer device 10 to the surface of the body. A separating layer 23 which covers at least a portion of the adhesive layer 22 and prevents the adhesive layer 22 from losing adhesiveness due to contamination prior to use. The separating layer 23 may be, for example, adhesive paper.

[0021] The fluid transfer device 10 may be made of, for example, but not limited to, natural latex, synthetic latex, rubber, silicone, polyisoprene (PI), polyurethane (PU), polyethylene (PE), polyvinyl chloride (PVC), polymer material, biomaterial or synthetic DNA material. The material constituting the adhesive layer 22 may include, for example, a pressure-sensitive adhesive that is used to adhere the second plate 21 to the wearer's skin through the adhesive layer 22. The second plate 21 may also be made of a viscous material. The second surface S2 of the first plate 11 and the third surface S3 of the second plate 21 are interconnected. The connection may be achieved by adhesion using, for example, a solvent, adhesive, tape, or adhesive film, or may be soldered and joined, for example, but not limited to, electrical heating, ultrasonic or high frequency welding.

[0022] The first plate 11 and the second plate 21 may be soft plates in their natural state, which may preferably be made of an elastic material, but a non-elastic material may also be used. The thickness of the first plate 11 and the second plate 21 is preferably not more than 0.1 mm. The first plate 11 and the second plate 21 may be made in the form of a film with a flat or arcuate surface, and the edge may be in the form of, among other things, a circle, an ellipse, a rounded regular polygon, or any other shape. Preferably, the first plate 11 is a waterproof plate, such as a thermoplastic polyurethane (TPU) film. The second plate 21 to be adhered to the user's skin requires better breathability and can be made from a microporous film such as a polyurethane (PU) film with high air and water permeability, among other things. The thickness of the second plate 21 is preferably less than 0.1 mm, more preferably less than 0.05 mm, and most preferably less than 0.03 mm. The air permeability of the second plate 21 preferably has a moisture vapor transmission coefficient (MVTR) greater than or equal to 500 g/(m ² ·24 h), and the water permeability after gumming thereof is preferably greater than or equal to 1000 g/(m ² ·24 h). To improve comfort and skin compatibility, any material may be attached to the first surface S1 of the first plate 11, such as woven materials, non-woven materials or films. To facilitate understanding of plate structures, most of the following drawings are shown in sectional views and exemplary forms with a fluid chamber.

[0023] FIG. 2A - FIG. 2C shows another embodiment of the present invention. A third plate 31 is provided between the first plate 11 and the second plate 21 of the fluid transfer device 10, thus forming a second chamber R2 between the third plate 31 and the second plate 21. The edge of the third edge 31 can be soldered/glued between the first plate 11 and the second plate 21 simultaneously (as shown in FIG. 2A), or soldered/glued to the first plate 11 (as shown in FIG. 2B), or soldered/glued to the second plate 21 (as shown in FIG. 2C). The same or different fluids may be introduced into the first chamber R1 and the second chamber R2, respectively.

[0024] FIG. 3 shows another embodiment of the present invention that can be used for ice packs/warm compresses. The first drainage hole 12 on the first plate 11 further comprises a drainage part that is connected to the first drainage hole 12 and allows the inside of the first chamber R1 to be connected to the outside through the first drainage hole 12 and the drainage part. The first drainage hole 12 may also be formed by an open part of the connecting part, which was formed by overlapping and joining the edges of the two first plates 11. In this embodiment, the first plate 11 and the second plate 21 are thermoplastic films. The edges of the first plate 11 and the second plate 21 are heat-sealed to form a ribbon-like region 1121 in a continuous closed manner. The drain portion is a drain tube 13 fitted corresponding to the first drain hole 12. One end of the drain tube 13 is connected to the first plate 11, and the first chamber R1 communicates with the outside through the first drain hole 12. The drain tube 13 has an internal cross-section that is usually the same or larger than the first drain hole 12, and the configuration may be such as to connect the cross section of the tube wall of one end of the drain tube 13 with the first surface S1 or the second surface S2 of the first plate 11. Alternatively, as shown in FIG. , one end of the drain tube 13 may include a rim portion 131 that is generally perpendicular to the axial direction of the drain tube 13 and surrounds the periphery of the drain tube 13 (by way of example, the two members are here connected inseparably). The rim portion 131 is connected to the first surface S1 of the first plate 11, thereby improving the fit and reliability of the connection between the drain tube 13 and the first plate 11. The drain tube 13 may include a closed end that is permanently connected to other parts of the drain tube 13, such as test tube. Alternatively, the drain tube 13 may further comprise a cap 14 for opening or closing the drain tube 13. In this embodiment, the drain tube 13 extends from the first drain hole 12 in a direction opposite to the first chamber R1, and the cap 14 and the drain tube 13 are connected to each other. with a friend with a carving. In use, the fluid transfer device 10 is attached to the user's skin with the adhesive layer 22, cold/hot water is injected into the first chamber R1, and the drain tube 13 is closed with the cap 14, which can help the user in icing, heat compress, physiotherapy or warming in cold weather. The drain tube 13 can also be used to drain and replace water when the water temperature is close to body temperature. Those skilled in the art will appreciate that in this embodiment the design can be simplified by replacing the threads with a flange located on either cap 14 and drain tube 13 and a concave flange located on the other so that they can be attached to each other. friend.

[0025] FIG. 4 shows another embodiment of the present invention, which achieves the effect of visually increasing the size of a woman's breasts when wearing clothes. The rim portion 131 of the drain tube 13 is connected to the second surface S2 of the first plate 11. The drain tube 13 extends from the first drain hole 12 towards the first fluid injection chamber R1. After the injection of water, when the drain tube 13 is closed with the cap 14, the fluid in the first chamber R1 will be drained by pressure or gravity. As a result, the drain tube 13 may further comprise a check valve that prevents fluid from flowing from the inside of the first chamber R1 to the outside through the drain tube 13. The first chamber R1 is formed by connecting the first plate 11 and the second plate 21 with a continuously closed ribbon-like region 1121. In this case, the first chamber R1, made of soft plates, will expand like a pillow from the periphery to the center when filled with fluids, and the pressure of the fluids will cause the edges of the second plate 21 to easily peel off from the body surface. To solve the above problems, the edge of the second plate 21 may be larger than the outer edge of the ribbon-like region 1121 or the edge of the first plate 11, thereby forming a gap between the outer edge of the ribbon-like region 1121 and the edge of the second plate 21, where the widest part of the gap is preferably greater than 3 mm, more preferably greater than 8 mm, most preferably greater than 15 mm, in order to improve the fit of the edges of the fluid transfer device 10. attach the surface of the first chamber R1, which is adjacent to the second plate 21, to the surface of the body with the adhesive layer 22 (similar to tent pegs). In addition, with regard to the second plate 21, taking the inner edge of the band-like region 1121 as the reference point, the effect of double-sided fixing on the inner and outer side of the second plate 21 is achieved by the adhesive layer 22, and effectively prevents the second plate 21 from being peeled off from the body surface of due to excessive tensile force or hydraulic pressure applied to the first plate 11. In addition, since the second plate 21 is larger than the outer edge of the ribbon-like region 1121 (that is, there is a gap between the edge of the second plate 21 and the outer edge of the ribbon-like region 1121), the total thickness gradually increases from the edge to the center. Compared with the configuration shown in FIGS. 1-3, in which the thicker (two-ply) edge is formed by the first plate 11 and the second plate 21 aligned with each other, and the thicker edge is easily curled due to friction, the thinner edge can it is better to prevent peeling of the periphery of the fluid transfer device 10 due to friction. The present invention may further comprise a structural support member 91 which extends along the edge of the first plate 11 or the second plate 21, functioning as a frame, and is mounted on the first plate 11 or the second plate 21 to maintain the shape of the edge prior to bonding and to prevent wrinkling. After gluing, the user can remove the support member 91 of the structure. In the present embodiment, the second breast adhesive plate 21 is a flat film, and the first plate 11 is preferably made of a film with an arcuate surface, which increases the volume of the first chamber R1 and can visually increase the size of the breast. In addition, the fourth sheet 41 may be installed on at least a part of the sweat-absorbing adhesive layer 22. The fourth sheet 41 is an absorbent sheet composed of fibers, pores, or water-absorbing polymeric materials such as tissue paper, wadding, gauze, nonwovens, sponges, or artificial leather, among others. The edge of the fourth plate 41 does not extend beyond the inner edge of the band-like region 1121. In addition to visually enhancing the breast shape, other parts such as the plantar arch of a flat foot, among others, can be reduced using the same methods.

[0026] FIG. 5A - FIG. 5E shows the steps of using the present invention to visually increase the size and shape of a woman's breasts while wearing clothes. The fluid transfer device 10 includes a fifth plate 51. A portion of the fifth plate 51 is connected to the second surface S2 of the first plate 11 and includes a raised portion 52. The raised portion 52 is larger than the first drainage hole 12 and is capable of completely covering the first drainage hole 12 from the inside of the first chamber R1. Thus, the liftable part 52 can only rise towards the inside of the first chamber R1 and achieves the effect of a check valve, and prevents fluid from flowing from the inside of the first chamber R1 to the outside through the first drainage hole 12 (if the fifth plate 51 part is connected to the first surface S1 of the first plate 11, the opposite effect will take place). In step 1, as shown in FIG. 5A, the release layer 23 is peeled off and peeled off to expose the adhesive layer 22 on the second plate 21. In step 2, as shown in FIG. 5B, the second plate 21 is adhered to the breast skin so that the adhesive layer 22 was directed towards the chest. In step 3 (optional), as shown in FIG. 5C, the support member 91 of the structure is removed. In step 4, as shown in FIG. 5D, an appropriate amount of water is supplied through the first drain hole 12, and the hydraulic pressure inside the first chamber R1 pushes the rising part 52 towards the first drain hole 12 and thus plugs the first drain hole 12. Gradually the expanding first chamber R1 causes the second plate 21 to exert pressure on the soft tissues of the covered breast towards the pectoralis major muscle, resulting in the breast being in a recessed state, and the first plate 11 is connected to the uncovered skin of the breast to form an enlarged breast shape. In step 5, as shown in FIG. 5E, the first drain hole 12 is closed with a cap 14 with a reusable adhesive mass to prevent leakage of a small amount of fluid. The water inside the first chamber R1 can connect with the user's chest as a result of the above actions and form a natural body shape. It is also convenient for women to additionally regulate the volume of the breast by adjusting the amount of water injected. Since the specific gravity of water is approximately equal to the specific gravity of the human body, the characteristics of the fluid can better provide natural bouncing and swaying, as well as breast touch sensations.

[0027] An embodiment of the present invention is shown in FIG. 6A. A part of the first plate 11 extends outward and forms a sliding part 111. The sliding part 111 is folded in the opposite direction, the edge of which is connected to the first plate 11 to form a belt. An embodiment of the present invention is shown in FIG. 6B. The first plate 11 or the second plate 21 has wavy edges to better secure the fluid transfer device 10 on a non-planar surface. The second corrugated edge plate 21 can also serve as a claw which provides gripping force and can better resist external pull when the chamber is filled with fluid. A fastener 92 may be optionally positioned at the edge of the first plate 11 or the second plate 21 to permanently or detachably connect two adjacent fluid transfer devices 10. The fastener 92 may be, but is not limited to, a buckle, a button, a rivet/pin, a fastener, a zipper , tape, Velcro or tie tape/rope. In this embodiment, the fastener 92 is a C-shaped/U-shaped buckle. The two ends of the clasp pass through the two aforementioned belts from the retractable portion 111 of the first plate 11, which face each other, respectively, thereby shortening the distance between the two breasts, centering the breasts and visually enlarging the cleavage.

[0028] FIG.7A - FIG.7G shows another embodiment of the present invention with two first drainage holes 12. The second plate 21 is shown with the same detail as an example, where the petal edge achieves the same effect as the wavy edge, shown in FIG. 6B, allowing the second plate 21 to better adhere to a non-flat surface. The check valve, C-shaped/U-shaped first lifting part 112, formed by cutting the first plate 11, forms part of the first drainage hole 12A. The sixth plate 61 is further mounted on the first drain hole 12A. The edge of the sixth plate 61 is connected in a closed manner with the first surface S1 of the first plate 11 in the form of a stroke of the first raised part 112 and contains an opening, the hole being smaller than the first rising part 112 and can be completely closed by the first raised part 112 from the inside of the first chamber R1. Thus, the first liftable portion 112 can only rise towards the inside of the first chamber R1 and functions as a check valve that prevents user-injected fluid from flowing from the inside of the first chamber R1 to the outside through the first drain hole 12A (if the edge of the sixth plate 61 is connected to the second surface S2 of the first plate 11, the opposite effect will occur). As shown in FIG. 7A, an open portion is formed in which the second surface S2 of the first plate 11 and the third surface S3, near the edge of the second plate 21, are not soldered or glued to each other, and the open portion serves as another first drain hole 12B . When the check valve is installed in the first drain hole 12B (not shown in the figure), the first lifting part 112 can be formed on the edge of the first plate 11 adjacent to the first drain hole 12B, and the edge of the sixth plate 61 is connected to the first plate 11 and the second plate 21 simultaneously in a closed manner in the form of a stroke of the first raised part 112. The first drainage hole 12B may further comprise a drainage part. In this embodiment, the drain portion is a drain tube 13 placed between the first plate 11 and the second plate 21. The retractable tube 93 can be further connected to the drain tube 13 to drain water. The fluid in the first chamber R1 may be discharged through the first drain hole 12B, the drain tube 13 and the retractable tube 93 into the user's mouth. Thus, the present invention may be in the form of a water bottle attached to the user's body for outdoor use, such as long-distance running, cycling, long-distance swimming or diving. Therefore, during exercise, users can drink water or consume liquid food. Alternatively, the first chamber R1 may be formed as a flow space, one end of which is for injection and the other for draining. When the present invention is used to make ice packs/warm compresses, water at the same temperature can be continuously supplied to maintain a constant temperature in the first chamber R1. In addition to the gumming carried out on the second plate 21 during manufacture, the materials constituting the adhesive layer 22 may further comprise, for example, but not limited to, a double-sided tape. One surface of the double-sided tape can be adhered to the second plate 21 while the other surface is adhered to the user, thus the first chamber R1 formed by the connection of the first plate 11 and the second plate 21 can be reused simply by changing the double-sided tape. FIG.7B is a front view. The drain tube 13 is formed by joining two side edges of two seventh plates 71. The first drain hole 12B surrounds the drain tube 13. The part of the seventh plate 71 that is adjacent to the first drain hole 12B is connected to the second surface S2 of the first plate 11 and the third surface S3 of the second plate 21 respectively in a closed manner (as shown in FIG. 7C), whereby the drain tube 13 becomes flat in its natural state. The drain tube 13, which is made of a thin film less than 0.1 mm thick, can have the opposite effect of preventing the fluid in the first chamber R1 from draining. One of the surfaces of the drain tube 13, facing each other, contains an insulating material 94 (not shown in the figures), and therefore prevents blockage of the flow of the fluid that occurs as a result of melting and gluing the inner surfaces (except for the two side edges) of the seventh plate 71 under exposure to heat during manufacture. The insulating material 94 is an insulating material which is clamped, coated or printed before the formation of the drain tube 13 by joining two plates. The insulating material 94 is mounted on the portion of the seventh plate 71 which is adjacent to the second plate 21 (as shown in FIG. 7D). In this embodiment, the first plate 11 may further comprise a retractable portion 111 that replaces the seventh plate 71, which is connected to the first plate 11 (i.e., the first plate 11 and the seventh plate 71 are integrally formed), thus forming the drain tube 13. FIG.7E is a front view. The drainage part is a drainage bag 16 installed corresponding to the first drainage hole 12B. Similar to the drain tube 13 in FIG. 7B, the drain bag 16 is formed by joining the two side edges of the two seventh plates 71 as well as the bottom edge. The volume of the drainage bag 16 can be increased by expanding and lengthening the seventh plate 71. As shown in FIG. 7F, the drainage bag 16 is similar to the drainage tube 13 in FIG. 7D. The seventh plate 71 adjacent to the first plate 11 can be replaced by extending the first plate 11. connecting the two open side edges of the extension 111 and the seventh plate 71. The insulating material 94 is provided either on the surface of the seventh plate 71 that faces the extension 111 or on the surface of the extension 111 that faces the seventh plate 71. The opening of the sixth plate 61 is optional closed with a cap 14 with a reusable adhesive mass that prevents leakage of a small amount of fluid. As shown in FIG. 7G, the drain bag 16 is formed by folding the eighth plate 81 in half and sealing all or part of the edges of the eighth plate 81. In this embodiment, the drain tube 13 is additionally installed corresponding to the opening of the sixth plate 61.

[0029] FIG. 8A - FIG. 8C shows another embodiment of the present invention. The first drainage hole 12 is formed in the open portion where the first plate 11 and the portion adjacent to the edge of the second plate 21 are not soldered or glued to each other. As shown in FIG. 8A, the folded eighth plate 81 in FIG. 7G is further replaced by the retractable portion 111 of the first plate 11 to form a drainage bag 16. The drainage bag 16 is formed by joining the first surface S1 of the retractable first plate 11 and the third surface S3 of the second plate 21 , and then joining the two open side edges of the half-folded sliding portion 111. In this case, the second plate 21 includes at least a second drain hole 24, which allows the inside of the first chamber R1 to communicate with the outside through the second drain hole 24. The second drain hole 24 is smaller than the inner edge of the ribbon region 1121, thereby forming a gap between the second drain hole 24 and the inner edge of the ribbon region 1121. The distance is preferably greater than 3 mm, more preferably greater than 8 mm, and most preferably greater than 15 mm. When the present invention is used as a semen collection device, the thickness of the first plate 11, the second plate 21 and the seventh plate 71 is preferably less than 0.05 mm, more preferably less than 0.03 mm, most preferably less than 0.02 mm. The perimeter of the second plate 21 is preferably less than 180 mm, more preferably less than 150 mm, most preferably less than 120 mm. The widest part of the second plate 21 is preferably less than 60 mm, more preferably less than 55 mm, most preferably less than 50 mm. The volume of the drainage bag 16 is preferably less than 20 ml, more preferably less than 15 ml, most preferably less than 10 ml. The smaller perimeter and thickness of the plate can create a more compact and thinner biological fluid collection device 10 to increase pleasure during intercourse. The volume is set taking into account the fact that the amount of sperm in a man's ejaculate is usually no more than 10 ml. FIG. 8B shows another embodiment of the present invention for collecting semen. Since the coronal sulcus adjacent to the frenulum of the prepuce is the part that experiences the strongest friction during pushing activity, the first plate 11 and the second plate 21 are connected to each other in this area by a U-shaped/C-shaped ribbon-like region 1121. The first chamber R1 is generally kept closed during sexual intercourse, effectively preventing the first plate 11 and the second plate 21 from being peeled off by the tensile force resulting from friction. On FIG.8C shows a rear view (also with reference to FIG.8A), where the second drain hole 24 extends from the center of the second plate 21 to the upper edge of the second plate 21, forming a second plate 21 with an open and U-shaped (or C-shaped /V-shaped) upper end. When used by attaching the fluid transfer device 10 to the genitals of a recumbent woman with an open end facing the woman's pubic bones, a urine sample can be collected directly instead of using a catheter in an invasive technique. The second plate 21 with an open end structure can prevent the removal difficulty that occurs due to the adhesion of the adhesive layer 22 to the body hairs. A support member 91 of the structure (not shown in the figure) can further protrude outward from the edge to form a pressing portion 911 protruding from the second plate 21. fluid according to this invention before gluing or removing the supporting member 91 of the structure after gluing by pinching.

[0030] FIG. 9A - FIG. 9C shows another embodiment of the present invention. As shown in FIG. 9A, the drain tube 13 has a wider tube wall cross section and an outer cross section generally the same as the first drain hole 12. The cap 14 or tube wall cross section of one end of the drain tube 13 contains a reusable adhesive mass, whereby the cap 14 is glued to the drain tube 13 in a removable manner. Meanwhile, the second plate 21 includes at least a second drainage hole 24. The user can inject drugs or skin care products through the drainage tube 13. Thus, the fluid in the first chamber R1 can directly contact the body surface through the second the drainage hole 24, and drugs or skin care products can be directly injected into the wounds or can be used to directly moisturize the skin. For drugs that are absorbed through the skin, the effect of preventing loss of drugs or preventing staining of clothes can also be achieved. If there is a need to slow down the impact of the fluid on the body, the second drain hole 24 (as shown in FIG. 9B) can be equipped with a unidirectional or bidirectional osmotic membrane, such as gauze or meltblown cloth. Alternatively, a plurality of second drainage holes 24 may be formed by machining at least a portion of the second plate 21. Small and densely spaced holes allow fluid to slowly permeate through the microporous membrane. Alternatively, when the user injects the fluid, the raised portion 52 of the fifth plate 51 may prevent the fluid from flowing out. A plurality of patchy/ribbon areas 1121 may be further installed in the region of the first chamber R1 (as shown in FIG. 9C, which is a front view of FIG. 9B) to form a plurality of small chambers that can communicate with each other in the first chamber R1. The distance between the first plate 11 and the second plate 21 is smaller (as shown in FIG. 9B), so the best immersion effect can be achieved with less fluid. The two side edges of the structural support member 91 may further comprise pressing portions 911, respectively, for ease of use.

[0031] FIG. 10 shows another embodiment of the present invention. The second plate 21 contains a second drainage hole 24. The drainage part is a drainage bag 16, installed corresponding to the first drainage hole 12. The drainage bag 16 can be formed by combining two seventh plates 71, as shown in FIG.7E, or it can be as shown in the present embodiment, is formed by folding the eighth plate 81 in half and sealing all or part of the edges of the eighth plate 81. The edges of the eighth plate 81 may further include a non-sealed open portion to form the drainage hole of the drainage bag 16. In use, the second drainage hole 24 is aligned with the urethral opening and vaginal opening of a woman, and the second plate 21 is glued to the vulva with an adhesive layer 22, so that urine or menstrual blood can drain into the drainage bag 16 for accumulation. The drain bag 16 may further include a second drain tube 95 to drain biological fluids in a timely manner. In addition, the drain bag 16 of the present embodiment may further comprise a check valve and can prevent the fluid in the drain bag 16 from flowing back into the first chamber R1. As shown in FIG. 10, the first plate 11 includes a first riser 112. The eighth plate 81 forming the drainage bag 16 includes a second riser 96 larger than the first riser 112. The first plate 11 and the eighth plate 81 are connected in a closed manner in in the form of an outline of the first lift 112 and the second lift 96. At least a portion of the first lift 112 is connected to the second lift 96 (by soldering or gluing). Since the size of the first lifting part 112 is smaller than the second lifting part 96, the connection of the two parts can only be lifted towards the inside of the drainage bag 16. Thus, the effect of preventing backflow of the fluid in the drainage bag 16 can be achieved. In the technical field, it can be understood that if the drainage bag 16 is formed by two seventh plates 71, then the seventh plate 71 may include a second raised portion 96 to prevent fluid from flowing back.

[0032] FIG. 11 shows another embodiment of the present invention. The flat working part 132 can be further mounted on the drain tube 13 so that the user can open or close the drain tube 13 by fixing the drain tube 13 with one hand and operating the cap 14 with the other. In use, the release layer 23 is first peeled off and peeled off. The second drainage hole 24 is aligned with the woman's nipple, and the second plate 21 is glued to the skin of the breast with an adhesive layer 22. Then the cap 14 is inserted into the drainage tube 13 due to the elasticity and friction of the material and closes the drainage tube 13. The user's milk can flow out of the second drainage holes 24 into the first chamber R1 and accumulate in the first chamber R1. The user then opens the drainage tube 13 to release the biological fluid from the body after selecting a suitable location. This invention can help breastfeeding mothers prevent clothing stains or odors from over-lactation. When the second plate 21 is pasted on a body surface having an arc shape, irregularities, or folds of fat, wrinkles are easily formed on the edge of the second drainage hole 24. Under the action of hydraulic pressure, the fluid will flow out of the small channels formed in the wrinkled area towards the edge of the second plate 21, and eventually the second plate 21 will peel off due to the gradual decrease in the adhesive strength of the adhesive layer 22. Therefore, in order to maintain the shape of the second drainage hole 24 and prevent leakage, a drain hole support structure 25 can be additionally installed along the third surface S3 of the second plate 21 and the edge surrounding the second drain hole 24. By adjusting the adhesiveness of the drain hole support structure 25 (for example, making the adhesive between the support structure of the drainage hole 25 and the second plate 21 is weaker than the adhesiveness between the second plate 21 and the human body through the adhesive mass layer 22), after the second plate 21 is glued to the body surface, when the body surface forms wrinkles on the second plate 21 due to squeezing or friction, the support structure of the drainage hole 25 is peeled off from the second plate 21 due to weak adhesion, so it does not affect the adhesion between the edge of the second drainage hole 24 and the body surface.

[0033] The embodiment of the present invention shown in FIG. 12A and FIG. 12B is for breastfeeding. The fluid transfer device 10 includes removable structures such as a retractable tube, drainage bag, nipple, or valve, among other things. As shown in FIG. 12A, the second plate 21 includes a second drain hole 24. The drain tube 13 has an inner cross-sectional area larger than the first drain hole 12, so that the first chamber R1 has a better sealing and sealing effect. In addition, the cap 14 can be further connected to the second drainage bag 97. The second drainage bag 97 is mounted corresponding to the drainage hole 141 on the cap 14, so that when the cap 14 is closed by the drainage tube 13, the inside of the first chamber R1 is in communication with the inside of the second the drainage bag 97 through the first drainage hole 12, the drainage tube 13 and the drainage hole on the cap 141, which can help breastfeeding mothers to feed and store milk. Those skilled in the art may appreciate that, in the present embodiment, the second drain bag 97 may also be directly connected to the drain tube 13 for storing biological fluids. As shown in FIG. 12B, the nipple 98 can be additionally clamped between the drain tube 13 and the cap 14 to prevent pain and damage to the nipples during breastfeeding. In this embodiment, the cap 14 can also be connected to a valve, lid, switch, or sticker to open or close the drain hole 141 on the cap and release milk to prevent staining of clothing due to excess lactation. Alternatively, the cap 14 may be further connected to a retractable tube 93 to drain the milk into a distal container. Installation of the rim portion 131 surrounding one end of the drain tube 13 may be such that, for example, but not limited to, each of the rim portion 131 and the drain tube 13 includes a flange and the other a concave flange so that they are attached to each other. (as shown in FIG. 12B), the rim portion 131 and the drain tube 13 are attached to each other by threads, the rim portion 131 and the drain tube 13 are connected and integrally formed, or one of the rim portion 131 and the drain tube 13 is inserted to the other due to the elasticity of the material and friction.

[0034] FIG. 13 shows another embodiment of the present invention. Also with reference to FIG. 12B, in addition to the drainage tube 13, consisting of a removable nipple 98 and a cap 14, another drainage tube 13 for introducing cow's milk can be additionally installed on the first plate 11, which can help mothers with a low flow of breast milk. The second plate 21 may include a second drainage hole 24 so that breast milk can simultaneously flow into the first chamber R1. The second plate 21 may also be continuously closed so that a user who is not producing milk (eg a father) can also feed babies.

[0035] FIG. 14 shows another embodiment of the present invention. Also with reference to FIG. 2C and FIG. 5A, in addition to the raised portion 52 that covers the first drainage hole 12A, the fluid transfer device 10 may further comprise a third plate 31 between the first plate 11 and the second plate 21. The edge of the third plate 31 is brazed /is glued to the second plate 21, thereby forming a second chamber R2 between the third plate 31 and the second plate 21 (separated from the original first chamber R1). The part in which the third surface S3 of the second plate 21 and the edge of the third plate 31 are not soldered or glued to each other forms an open part, which is further connected to the second drain tube 95. The drain tube 95 is sandwiched between the second plate 21 and the third plate 31, and passes through the other first drain hole 12B so that the inside of the second chamber R2 can communicate with the outside through the second drain tube 95. In use, the user can first apply the fluid transfer device 10 to the chest, inject air into the second chamber R2 through the second drain pipe 95, and then introduce water into the first chamber R1 through the first drain hole 12A. This will not only visually increase the size of the chest when the wearer wears clothes, but also lighten the burden on the chest. Those skilled in the art will appreciate that the second drain tube 95 may also be connected to the second drain hole 24 on the second plate 21 (not shown in the figures). In this embodiment, the second chest adhesive plate 21 is a flat film, the third plate 31 may be made of a flat or arcuate film, and the first plate 11 is preferably made of an arcuate film.

[0036] FIG. 15A and FIG. 15B show another embodiment of the present invention. Also referring to FIG.7E - FIG.7G, FIG.8A and FIG.10, as shown in FIG.15A (FIG.15A is a rear view of FIG.7E, where the second plate 21 further passes into the second drainage hole 24), in one embodiment of the fluid transfer device 10 according to the present invention, a belt loop 161 is further provided on the drainage bag 16. The lashing rope or lashing strap can pass through the belt loop passage formed between the belt loop 161 and the drainage bag 16, and thus the drainage bag 16 can be attached to a part of the user's body. The drainage bag 16 may further include a plurality of belt loops 161 so that the user can select different fastening positions. As shown in FIG. 15A, when the drain bag 16 is generally mounted parallel to the legs, a plurality of strap loops 161 can be installed in a vertical direction, which increases the stability of the drain bag 16, and also allows the user to select different belt loop passages to adjust and achieve the best fit. The belt loop 161 can be formed, for example, by connecting the belt loop plate 162 to the drainage bag 16 by soldering or gluing (but not limited to the above method). For example, as shown in FIG. 15A, if the belt loop plate 162 is rectangular, two opposite sides of the rectangle may be connected to the drainage bag 16, or two or more points within the rectangle may be connected to the drainage bag 16. Alternatively, 15B, by using and connecting the long strip belt loop plate 162 with three or more drainage bag points 16 along the long side of the long strip belt loop plate 162, a plurality of belt loop passages can be formed. The hole for the button 163 can be additionally installed on the plate 162 corresponding to each pass of the belt loop. In combination with the fasteners on the fastening strap, the drainage bag 16 can be prevented from moving along the fastening cable or fastening strap.

[0037] FIG. 16 shows another embodiment of the present invention. The fluid transfer device 10 further includes a pulse portion 99 that can keep the mammary gland free and promote milk production by applying pulse vibration massage to the breast. The pulse part 99 is preferably located on the first plate 11 and can, for example, be connected to the cap 14, especially the cap 14, which contains a reusable adhesive mass (see FIG.5E and FIG.9A). The impulse part 99 may include a vibrating device or an unloading device mounted on the first plate 11. In addition, due to the good conductive properties of the fluid in the first chamber, the impulse vibration or impulse current will be more efficiently and evenly conducted to the surface of the body covered by the second plate 21 or the second drainage hole 24. In this way, a better massage effect can be achieved by pulse vibration, or a better electrotherapy effect can be achieved by pulse current, or medicines or skin care products in the first chamber R1 can be better absorbed by the body surface. .

[0038] The above descriptions are merely examples and not limitations. Any equivalent modifications or variations made without departing from the spirit and scope of this invention fall within the scope of the appended claims.

[0039] List of assigned numbers:

11 first plate

1121 ribbon area

111 drawer

112 first lifting part

12 first drain hole

12A first drain hole

12V first drain hole

13 drain tube

131 rim

132 working part

14 cap

141 drain hole in the cap

16 drainage bag

161 belt loops

162 plate with belt loop

163 button hole

21 second plate

22 adhesive layer

23 separating layer

24 second drain hole

25 support structure of the drainage hole

31 third plate

41 fourth plate

51 fifth plate

52 lifting part

61 sixth plate

71 seventh plate

81 eighth plate

91 supporting structural elements

911 pressing part

92 fastener

93 retractable tube

94 insulating material

95 second drain tube

96 second lifting part

97 second drainage bag

98 nipples

99 impulse part

R1 first camera

R2 second camera

S1 first surface

S2 second surface

S3 third surface

S4 fourth surface

Claims (46)

1. A fluid transfer device, comprising: the first plate, which contains the first surface and the second surface; the second plate, which contains the third surface and the fourth surface, part of the third surface and part of the second surface of the first plate are soldered or glued to at least one ribbon-like area, thus forming the first chamber, which contains at least the first drainage hole, and the inner part of the first chamber can communicate with the outside through the first drainage hole; an adhesive layer provided on the fourth surface of the second plate; And a separating layer covering at least a portion of the adhesive layer; wherein the first drainage hole is formed on the first plate or in the open part, where the second surface of the first plate and the third surface, near the edge of the second plate, are not soldered or glued to each other. 2. The fluid transfer device according to claim 1, wherein the third plate is provided between the first plate and the second plate, the second chamber is formed between the third plate and the second plate, and the edges of the third plate can be soldered or glued between the first plate and the second plate at the same time , or to the first plate, or to the second plate. 3. The fluid transfer device according to claim 1, wherein the edge of the second plate is larger than the outer edge of the ribbon-like region, and there is a gap between the outer edge of the ribbon-like region and the edge of the second plate. 4. The device for transferring fluid according to claim 1, further comprising a fifth plate, wherein a part of the fifth plate is connected to the surface of the first plate and contains a raised part, while the raised part is larger than the first drainage hole and can completely cover the first drainage hole. 5. The fluid transfer device according to claim 1, in which the first drainage hole further comprises a first raised part of the first plate, and the surface of the first plate further comprises a sixth plate, and the edge of the sixth plate is connected to the first plate in a closed manner in the form of a stroke of the first raised part of the first plate or is connected to the first plate and the second plate at the same time and contains an opening, and the opening is smaller than the first raised part of the first plate and can be completely closed by the first raised part. 6. The fluid transfer device of claim 1, wherein the second plate includes at least a second drain hole. 7. The fluid transfer device of claim 1, wherein the material constituting the adhesive layer comprises a pressure-sensitive adhesive or replaceable double-sided tape. 8. Device for transferring fluid according to any one of paragraphs. 1-7, further comprising a drain tube or drain bag, wherein the drain tube or drain bag is connected to the first drain hole or hole of the sixth plate. 9. The fluid transfer device of claim 8, wherein the drain tube or drain bag further comprises a check valve that can prevent fluid from flowing through the drain tube or drain bag from the inside of the first chamber to the outside or from the outside of the first chamber to the outside. internal. 10. The fluid transfer device of claim 8, wherein the drain tube includes a cap and the drain tube is openable or closed in one of the following ways: the cap and the drain tube are connected to each other with a thread; either of the cap and drain tube has a flange, and the other has a concave flange, which allows the cap and drain tube to be attached to each other; any of the cap and the drainage tube is inserted into each other due to the elasticity of the material and friction; at least any of the cap and drain tube contains a reusable adhesive mass for gluing the cap to the drain tube in a removable manner. 11. The fluid transfer device of claim 8, wherein the drain tube is formed by aligning two side edges of two seventh plates so that the drain tube is naturally flat. 12. The fluid transfer device of claim 8, wherein the inside surface of the drain tube or drain bag contains an insulating material that is pinched, coated, or printed prior to forming the drain tube or drain bag. 13. The fluid transfer device of claim 8, wherein the drainage bag is formed by sealing all or part of the edges of the two seventh plates, or by folding the eighth plate in half and sealing all or part of the edges of the eighth plate. 14. Device for transferring fluid in accordance with any one of paragraphs. 1-7, in which the first plate contains a retractable part. 15. Device for transferring fluid according to any one of paragraphs. 1-7, where the edge of the first plate or the second plate contains a fastener for connection with another fluid transfer device. 16. A device for transferring fluid according to any one of paragraphs. 1-7, wherein at least a portion of the second plate is an air-permeable or liquid-permeable plate. 17. The fluid transfer device according to claim 6, wherein the distance of the widest part between the outer edge of the ribbon-like region and the edge of the second plate is greater than 3 mm, and the distance between the inner edge of the ribbon-like region and the second drainage hole is greater than 3 mm. 18. A fluid transfer device, comprising: the first plate, which contains the first surface and the second surface; the second plate, which contains the third surface and the fourth surface, part of the third surface and part of the second surface of the first plate are soldered or glued to at least one ribbon-like area, thus forming the first chamber, which contains at least the first drainage hole, and the inner part of the first chamber can communicate with the outside through the first drainage hole, in which the second plate contains at least a second drainage hole; an adhesive layer provided on the fourth surface of the second plate; a drain hole support member that extends along an edge of the second drain hole with an adhesive strength weaker than the adhesive layer; And a separating layer covering at least a portion of the adhesive layer; wherein the first drainage hole is formed on the first plate or in the open part, where the second surface of the first plate and the third surface, near the edge of the second plate, are not soldered or glued to each other. 19. The fluid transfer device of claim 18, further comprising a drain tube or drain bag, the drain tube or drain bag being connected to the first drain hole. 20. The fluid transfer device according to claim 19, in which the first plate contains the first raised part, the drainage bag contains a second raised part, which is larger than the first raised part, the first plate is connected to the drainage bag in a closed manner in the form of a stroke of the first raised part and the second of the lifted part, and the first lifted part is connected to a part of the second lifted part. 21. The fluid transfer device of claim. 19, further comprising a plate with a belt loop, which is connected to the outside of the drainage bag and forms a passage for the attachment belt. 22. A fluid transfer device, comprising: the first plate, which contains the first surface and the second surface; the second plate, which contains the third surface and the fourth surface, part of the third surface and part of the second surface of the first plate are soldered or glued to at least one ribbon-like area, thus forming the first chamber, which contains at least the first drainage hole, and the inner part of the first chamber can communicate with the outside through the first drainage hole, in which the second plate contains at least a second drainage hole; a drainage bag installed in the first drainage hole, the drainage bag being formed by sealing all or part of the edges of the two seventh plates, or by folding the eighth plate in half and sealing all or part of the edges of the eighth plate; an adhesive layer provided on the fourth surface of the second plate; And a separating layer covering at least a portion of the adhesive layer; wherein the first drainage hole is formed on the first plate or in the open part, where the second surface of the first plate and the third surface adjacent to the edge of the second plate are not soldered or glued to each other. 23. The fluid transfer device of claim 22, wherein the inner surface of the drainage bag comprises an insulating material that is pinched, coated, or printed prior to forming the drainage bag. 24. The fluid transfer device of claim. 22, further comprising a plate with a belt loop, which is connected to the outside of the drainage bag and forms a passage for inserting the attachment belt. 25. The fluid transfer device of claim 22, wherein the first plate includes a retractable portion that replaces the seventh plate or eighth plate to form a drainage bag.

Images