• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
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  • 优先权
    • 专利摘要:
    Stand (1) for infusion bags comprises at least one telescopically arranged post (2), at least one base support device (4) and at least one suspension device (3) in which at least one infusion bag can be hung up or the stand (1) can be hung up when not in use. . The suspension device (3) preferably comprises at least one first suspension means (20), at least one second suspension means (21), at least one third suspension means (27) and at least one fourth suspension means (28). The post (2) comprises at least a first part (7), at least a second part (8) and at least a third part (9) which are telescopically arranged relative to each other and that the parts (7) and (8) can be locked together with at least one first locking device and that the parts (8) and (9) can be locked to each other via at least one second locking device. In a preferred embodiment, the third part of the post (2) comprises at least one internal stiffening. The patent application also includes systems.
    公开号:SE1500037A1
    申请号:SE1500037
    申请日:2015-01-23
    公开日:2016-07-24
    发明作者:Sjöblom Olow
    申请人:Tarsus Products Ab;
    IPC主号:
    专利说明:

    TECHNICAL FIELD The present invention relates to a stall for infusion passes in accordance with the claims. Technical background Inorn healthcare is given daily a large number of infusions containing, for example, drip, blood and the like. The infusions are usually given by transferring water shoes in so-called infusion passes to the patient's bloodstream via a tube or the like. The transfer of the fluid from the infusion pass to the patient usually takes place by hanging the infusion pass in a so-called infusion stall (IV stall) at a higher vertical level than the patient and transferring the liquid from the effect of gravity to the patient. Alternatively, the liquid in the infusion pass can be transferred to the patient by pumping the liquid with a dosing pump or the like.
    Infusion stalls usually include a vertical post, a pasama suspension device and a foot, leg stall or the like. To satisfy the need to be able to adjust the height of the infusion pass relative to the patient, the length of the vertical post has been made telescopically adjustable. A problem with existing types of infusion stalls is that the lasing devices, such as the telescopic parts of the laser stall inboard, may be capable of maneuvering quickly and reliably between a load and a non-load layer and vice versa. There is thus a need for an improved variant of welding devices for the parts of the post with which a simpler adjustment of the IA to the infusion site can take place.
    Due to problems with existing types of infusion stalls, all of these usually take up a lot of space both during use and when storing the infusion stalls when not in use. The problem is particularly great in connection with the storage of the infusion stalls when they are not in use. The problem with existing infusion stalls is that these, when not in use, are usually intended to stand on the floor or the like. This means that the storage of several infusion stalls is usually of a disordered nature, where stalls are easily hooked into each other, and that the storage of the infusion stalls takes up a lot of space, especially if they are on the floor. The disordered nature of the storage of infusion stalls also entails a work environment problem.
    To reduce the need for the space required to store the infusion set, the foot of the infusion set has been made collapsible. This has meant that the stables take up relatively less space, but that the storage of these is still of a very disorderly nature. There is therefore a need for a substantially improved infusion stall which takes up little space and can easily be stored in a large number together at the same time. The problem with most existing types of infusion stalls is that these are not intended to be hung in a collapsed layer.
    An additional problem with existing types of backing devices (such as collapsible Knights, collapsible bone structures and the like) for infusion stables, for example, is that these can be responsive, respectively faithful, to maneuver between an infant layer and a fallen layer and vice versa. It can thus be responsible for a user, especially for muscle weak, to fall out and collapse the leg positions of known types of infusion stables.
    Furthermore, there is also the problem that the leg position cannot be folded out and aliased in a simple and simple way, at the same time as this can reliably remain positioned in the collapsed team and the collapsed team, respectively. Especially when storing several stables which are hung up next to each other at the same time, there are problems if the leg stall can not be kept in a collapsed position in a reliable manner. With the known constructions of leg stands, there is a risk that the leg stands are involuntarily maneuvered to a failed age, thereby defending the fact that several stables are kept suspended close to each other.
    A problem with the above-mentioned bone stalls is that these baths must be functionally reliable (regarding, for example, the construction of the bone stall) at the same time as these must be cost-effective. Kanda constructions of bone stables have the problem that these include a large number of details and thereby become time-consuming and / or expensive to manufacture and assemble. For example, the assembly of the wheels is time consuming.
    It is also a problem with known types of infusion stalls, especially collapsible infusion stalls, that these are usually responsible for cleaning and that it can therefore be difficult to maintain a high level of hygiene. For example, these include nooks and crannies which may be responsible for cleaning and which bacteria and the like may thereby form in them. There are also problems when infusion stalls are to be sterilized by elevated temperature such as in an autoclave. This presupposes that the choice of material in the infusion stall is such that this -01 the increased heat in the autoclave or the like. There are problems with materials used for storage and other components in the stable because these do not speak of the elevated temperature. During a sterilization of existing infusion stalls, there are problems with oil or other lubricant in wheels leading and the like disappearing at the elevated temperature. Another problem is that existing stables, which are not collapsible, are bulky and can thus be properly washed in a sterilization plant. Furthermore, the stables are responsible for moving to and from the sterilization plant and to and from storage, respectively, without these risking coming into contact with the floor and thereby losing the sterilization. Being able to sterilize an infusion stall, and other products, is especially important after these are used in the treatment of patients with severe infectious diseases, bacterial diseases or the like, such as Ebola.
    Kind technology A large number of variants of stalls for infusion passes are already known. For example, patent specification SE536440 describes a variant of a stall for infusion passes which comprises two suspension means such as pads and the suspension means in accordance with the present patent application. However, the suspension means according to the patent specification SE536440 differ greatly from the suspension means in accordance with the present patent application. For example, the construction comprises a plurality of parts, substantially more than what the present construction comprises, which entails relatively high manufacturing costs. For example, the foot of the structure (leg posture) consists of a large number of parts. The construction of the leg stand also means that great care must be taken when cleaning the stable in order for it to maintain a high hygienic level. For example, in accordance with the patent application, the construction comprises profiles of a type which can be a response to keep clean from bacteria and the like.
    Swedish patent application SE1200026 describes a system for affixing infusion passes. The patent specification also describes a variant of the infusion stall in accordance with patent SE536440. The construction according to patent application SE1200026 comprises embodiments of a leg stand which comprises a plurality of interconnected plates in which the legs of the leg stand are arranged arranged. The construction of the foot (leg stall) has the disadvantage that it comprises a number of components which mean that it becomes expensive to manufacture, both in terms of components and from an assembly point of view. The foot (leg posture) also has the disadvantage that the temporary fixation of the foot (leg posture) in collapsed or failed position can be improved. The construction also has the previously described disadvantage that the suspension means can only be used to hang up a maximum of two infusion passes, in contrast to a variant of the following invention with several other two is possible to hang up. The construction further comprises the nooks and crannies which mean that it requires great cleaning accuracy in order for it to maintain a high level of hygiene. For example, in accordance with the patent application, the construction comprises profiles of a type which can be a response to keep clean from bacteria and the like.
    The main object of the present invention The main object of the present invention is to create an improved infusion set which solves or reduces at least one of the above-mentioned technical problems. A further object of the present invention is to create an infusion stall which can be collapsed and stored space-efficiently. A still further object of the present invention is to create an infusion stall which can be manufactured cost-effectively at the same time as the construction of the stand allows a high hygienic level. A further object of the present invention is to create an infusion stall which comprises an improved function for up and down (filling in and out) of the stall.
    BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in more detail below with reference to the accompanying schematic drawings which, by way of example, show the presently preferred embodiment of the invention.
    Figure 1 shows a collapsed infusion set according to a first embodiment.
    Figure 2 shows a failed infusion stall stall in accordance with a first embodiment.
    Figures 3A - 3D show exemplary lasing devices for the parts of the post.
    Figure 3E shows an alternative embodiment where the post part comprises at least one reinforcement. Figure 3F shows a cross-sectional profile entering the post.
    Figures 4A show a first embodiment of the present suspension device. Figure 4B shows a first alternative embodiment of the suspension device of the frame. Figures 4C and 4D show alternative embodiments of the stable suspension device.
    Figures 4E show a suspension member according to an exemplary preferred embodiment.
    Figure 5A shows the first part (lower hub, fixed hub) in more detail.
    Figure 5B shows the second part (upper hub, movable hub) in more detail. Figure 5C shows profile embedded in bone.
    Figures 6 show a first exemplary variant of a system with which the stable can be hung up.
    Figures 7A to 7B show a variant of a system with which the stable can be hung up. Figures 8A to 8C show further exemplary variants of systems. Detailed Description of the Invention Referring to the figures, an exemplary embodiment of an infusion stall 1 is shown in accordance with the present patent application. By infusion stall (IV stall) 1 is also meant constructions which are called infusion stands, drip stalls and similar constructions. The present invention relates in alternative embodiments to variants of systems for storing and / or moving the present site in an arbitrary, or fixed, number.
    The infusion set 1 is intended to be used to line up at least one infusion phase (not shown in the figures) at at least one vertical level. In preferred embodiments, the infusion set is intended to hang at least two infusion passes on at least a first vertical level, or alternatively at least a first vertical level and at least a second vertical level. The infusion stall 1 comprises at least one post 2, at least one first suspension device 3 for at least one infusion phase saint at least one substrate-supporting device 4 (foot, floor-supporting device).
    Specifically for preferred embodiments of the infusion set 1, the suspension device 3 for hanging up infusion passes also has a function as a suspension device for the infusion set 1 in its entirety, when this is not used for infusions. For example, when not in use, the infusion stall may be suspended in a scaffolding stall or other support device such as a rack or other stall suitable stall scaffolding device.
    In the preferred embodiment shown in the figures, the infusion stall according to the invention is the raising device 3 for infusion passes and the hanging device for the stall as a whole is integrated in a hanging device with both functions. In alternative embodiments, the suspension device, or suspension device row, for hanging 6 infusion passes and the suspension device for hanging up the stable can be constituted by separate suspension devices.
    The post 2 dr is preferably made of a rot., Profit or the like. Preferably, the length of the post 2 is adjustable. The length of the post 2 can be adjusted because the post is telescopically adjustable. The post 5 comprises at least a first part and at least a second part 6 and preferably at least a third part 7 which are telescopically arranged in relation to each other. The first part is informable in the second part 6. Alternatively, the second part 6 may be informable in the first part 5. The second part 6 is informable in the third part 7. Alternatively, the third part 7 may be informable in the second part 6 The first part 5 can be welded to the second part 6 with at least one first reading device 8 or the like. The second part 6 can be welded in relation to the third part 7 with at least one second welding device 9. In alternative embodiments, the post 2 may comprise more or fewer parts than the exemplary three parts.
    Referring to Figures 3A to 3B, there is shown a portion of the inlet post in which inlet welds 8 and 9 are formed by welds which include at least a first weld and at least a second weld 11 which, upon inboard rotation of the welds in one direction, laser them together with each other and in the event of an inboard rotation of the welding means in the opposite direction of the release & welding.
    Referring to Figure 3C, an alternative variant of the welding devices 8 and 9 shows where welding takes place with at least one screw connection 12 or the like. In the exemplary embodiment, the screw connection 12 comprises at least one knob, or other variant of operating device. Alternatively, other modal techniques may be used in the lasers.
    In a Rire-drawn embodiment, the infusion stall 1 comprises at least one scraping function with which all or parts of the surface of at least one of the parts of the post are scraped off during an inward movement of one post part in relation to the other post part. The effect is achieved by at least one scraping device 13, such as an edge, ring, bearing, sealing of flexible and resilient material which encloses the circumference of the post. The figure shows exemplary positions of the scraping device 13. The scraping device can be integrated in the welding device or be an additional batch which is not integrated with the welding device. The scraping device 13 acts with a resilient force against the surface of the post, which results in a scraping of any contaminants occurring on the surface. Referring to Figure 3D, it is shown how the welding device comprises welding means comprising a screw connection 12. Specifically with the invention in accordance with the embodiment is that the screw 14 of the screw connection 12 comprises a tip of a relatively softer material which reduces the risk of damage to the post parts.
    Referring to Figure 3E, a cross-section shows a profile, tube or similar entry in the post 2 in accordance with an alternative embodiment. Specific to the embodiment is that at least one of the profiles, tubes or the like of the post 2 comprises at least one reinforcement (stiffening) 16. The reinforcement 16 may be of different shape but in the exemplary embodiment they comprise at least one first intermediate wall 17 and at least one second intermediate wall 18 which intersect and form a cross-shaped cross section. In alternative embodiments, the cross-section of the reinforcement may be of a different form suitable for the spirit with several or farm partitions. With the construction with at least one reinforcement, the buoy stiffness of the Olcar post part 5 and the wall thickness of the post part can be reduced. The construction in accordance with the alternative embodiment reduces the risk of the narrowest part being damaged or otherwise damaged. A corresponding effect can be achieved by the fact that the post part 5 lacks reinforcement and that this consists of a stronger material.
    In its upper spirit, the post part 5 of the post 2 is provided with, or connected to, at least one fixed 19 for the first suspension device, for infusion pass or infusion passes. The design of the fastener 19 can vary greatly within the scope of the present invention. For example, it is conceivable for the first suspension device 10 to be detachably connected to the post with a quick coupling. It is further conceivable that the fastener 19 is permanently connected to the upper spirit of the post.
    Referring to Figures 4A to 4D, variants of infusion pass suspension devices and the stand suspension device as a whole are shown in more detail. The suspension device 4 comprises at least one first suspension member and preferably at least one second suspension member 21.
    In the exemplary embodiment shown in Figure 4A, the first suspension member 20 and the second suspension member 21 are hook-like structures (claw-like structures). The hook-like fastening means 20 and 21 comprise in their one spirit 22 an Ogla 23, Ora or the like. The second spirit 24 of the hook-like suspension means is constituted by a curved part (curved part) 25. The curved part 25 is preferably radially shaped. alternative embodiments, the curved portion 25 may be of a different shape suitable for the spirit. The suspension means 20 and the suspension means 21, respectively, are rotatably connected to an 8 caste 19 in the post 2 via an axis! 26 in the horizontal direction of the post The fastener 19 comprises at least one continuous hall (not shown in figures). The first suspension member 20 and the second suspension member 21 are connected to the fastener 19 by a screw connection, shaft or the like.
    In Figure 4A, the suspension means are rotatably arranged about a common axis of rotation 26 and that the suspension means 20 and 21 are manoeuvrable between at least a first position where the suspension means are intended to support at least one infusion phase and a second position where the suspension means are rotated vertically upwards as possible. of stable 2 in a vertical position. The position corresponds, or essentially corresponds, to the vertical gravity-affected direction. The construction means that the suspended infusion stalls do not dice into each other without being able to be hung up without substantially hooking up with other suspended infusion stalls.
    Referring to Figure 4B, a third alternative embodiment is shown in which the stable includes at least one first suspension member 20 and at least one second suspension member 21. The first suspension member 20 and the second suspension member 21 are used in the unfolded layer to suspend infusion passes. In a folded position, these can be used to hang up the stable. In the exemplary embodiment, the construction comprises at least one third suspension member 27. The third suspension member 27 is used to hang the stable in its entirety. The third suspension member 27 is in the exemplary embodiment a claw-like member. The third claw-like member 27 may be fixedly or rotatably disposed in relation to its attachment.
    Referring to Figure 4C, there is shown a second alternative embodiment of the infusion set suspension device 3 which includes at least a first suspension member 20, at least a second suspension member 21, at least a third suspension member 27 and at least a fourth suspension member 28. In the exemplary embodiment, the first suspension member 20 and the second suspension member 21 is on a first vertical level and the third suspension member 27 and the fourth suspension member 28 are on a second vertical level. The first suspension means 20, the second suspension means 21, the third suspension means 27 and the fourth suspension means 28 can be constituted by the suspension means shown in the figures. In alternative embodiments, these may be constituted by other suspension means suitable for the purpose.
    Referring to Figure 4D, a third alternative embodiment of the infusion stall is shown which includes at least a first suspension means 20, at least a second suspension means 21, 9 at least a third suspension means 27 and at least a fourth suspension means 28. In the exemplary embodiment, the first suspension means 20 and the second the suspension means 21 on a first vertical level and the third suspension means 27 and the fourth suspension means 28 sit on a second vertical level. In the exemplary embodiment, the construction comprises at least a fifth suspension member 29. The construction differs from the previous embodiments in that the suspension members are not rotatable. In alternative embodiments, however, it is conceivable that these are rotatable.
    Referring to Figure 4E, there is shown a preferred embodiment of a claw-like scraper. The construction according to Figure 4E differs from the previous variant of hooks in that its opening has been adapted to facilitate the raising of the stable in its entirety.
    Referring to Figure 5A, the backing device 4 is shown in more detail. The base support device 4 is formed in the exemplary figures by a foot 30. The foot 30 comprises at least three legs 31 and four-legged four legs 31. The foot 30 further comprises at least one part relative to the post (nay) 32 and one movable in relation to the post. part (nay) 33. In the exemplary embodiment, the first part and the second part have round cross-sections. In alternative embodiments, however, the first part and the second part may have other for the spiritually suitable cross-sectional shapes.
    The respective legs 31 are in their first end 34 mounted and rotatably attached to the movable part 33. The respective legs further comprise at least one strut which in one end is connected to the leg 31. In its other end the strut 35 is rotatably connected to the fixed hub (parts) 32.
    Referring to Figure 5B, the fixed part is shown in more detail. The fixed hub (part) 32 comprises at least a first part 36 and at least a second part 37. The first part 36 and the second part 37 are connected to each other or connected to each other by at least one connecting device 38. The connecting device 38 may comprise connecting means 39 such as screws, gangway slippery fast fastening or the like. The fastening of the struts 35 to the fixed part takes place via at least one axis! or the like which is located in a recess (space) 41 which is formed between the first part 36 and the second part 37. The strut 35 is rotatably arranged via the shaft 40 in relation to the fixed part 32. The fixed part 32 comprises the webs at least one recess 42 for the respective struts 35 so that this can be rotated about the axis of rotation. The shaft 40 is preferably integrated with the strut 35. In the exemplary embodiment, the strut 35 comprises a fixed 43 for a shaft or similar connecting device with which the strut 35 is rotatably = closed to the leg 31.
    The fixed part 32 further preferably also comprises at least one first for the post 2. The fastening between the post 2 and the fixed hub (part) 32 can take place on a fastening element or the like connecting member for the other. For example, the post 2 and the fixed part 32 can be connected to each other with the aid of screw connections or with other fastening elements suitable for the second. A characteristic feature of the present floor support device is that, unlike previous variants of the stable, it comprises a first part and a second part which are connected to each other.
    Referring to Figure 5C, a variant of the movable hub (part) 33 is shown in more detail. In the exemplary embodiment, the movable part (hub) 33 comprises at least a first part 44 and at least a second part 45. At least the lower part (second part 45) of the movable hub 33 is provided with a corresponding number of recesses 46 as the number of legs. The legs are intended to be connected to the movable hub via at least one shaft (not shown in the figures) which is intended to be connected to at least one recess 47 adjacent to the recesses 46. The recess 47 is preferably transverse in the relative recesses 46 (preferably awn transverse in recess). to the radial direction of the hub). The shaft can be integrated with the leg 31 or consist of a separate part connected to the leg. The recess 47 in the preferred embodiment also constitutes a bearing for the shaft (provided that the parts 44 and 45 are made of a material which allows a bearing effect between the shaft and the first part and / or the second part).
    The hubs and legs are preferably made of a material which provides a good storage between the legs and the nay. With the help of the choice of material, the storage can take place in the material, which allows a separate layer to be excluded from the construction.
    Referring to Figure 5D, an exemplary embodiment of the leg profile is shown in a cross-section (part of the profile entering the legs). Specifically with the profile of the leg in the preferred embodiments is that these had an open shape. The open shape of the profile means that washbasins / disinfectant washbasins do not remain in this to a significant extent but run out of the profile after disinfection, washing or the like has been carried out. In the exemplary embodiment, the profile of the leg essentially has a U-shape. In the alternative design form, the cross-section of the profile may be of a different Open shape (an U-shape). The leg profile can be made of aluminum, polymeric material (such as plastic material) or other BOr dndamalet flexible material. The profile of the bone preferably consists of a material which numbers the 11 temperature, at least 100 degrees C, which hays Rh sterilization thereof. The material should preferably be of a type which can be treated in an autoclave. In the case of variants of infusion stables that do not cross in an autoclave, or other sterilization or washing facilities, the bone stall may be made of a different material or material combinations.
    The strut 35 is preferably made of a material which had a storage effect. The strut 35 is further preferably made of a material which speaks of the temperature which is raised for sterilization thereof in, for example, an autoclave. For example, the material may be a polymeric material.
    Each leg 31 comprises in its second spirit 35, or proximity of the spirit, at least one wheel 48. The construction of the wheel 48 may vary widely within the scope of the present invention. The wheel 48 preferably consists of a wheel structure which is rotatable about a vertical axis. In alternative embodiments, the wheels may be of a different type of wheel construction than the exemplary ones. In alternative embodiments, one or more of the wheels may include a loading function (not shown in the figures) which prevents the wheel (wheels) from rolling. Specifically with the wheel construction in accordance with the present invention, the wheels comprise a variant of a quick-release fastener with which the wheels (wheel module) can be connected to the profile of the leg. An exemplary embodiment of this is shown in the figures. The wheel is preferably made of a material or material combinations which represent the temperature required for sterilization thereof in, for example, an autoclave or other sterilization-suitable sterilization or washing device. In alternative embodiments, the wheels, where these have not been exposed to elevated temperature, may be of materials or material combinations which do not (or to a limited extent) withstand elevated temperature.
    The vertical post 2 is intended to be connected fixedly or releasably arranged to the stable support device (foot) of the stable. The movable part can be moved according to the length of the post between a first (lower) layer and a second (upper) layer. The movable part is preferably stored in relation to the post. The storage can consist of a storage that is suitable for the occasion.
    The hub and legs are preferably made of a material which provides good storage between the legs and the nay. With the help of the choice of material, the storage can take place in the material, which allows a separate layer to be excluded from the construction. In an alternative embodiment of the present invention, it may comprise at least one handle 49 (shown in Figure 2) with which the infusion stall can be carried and controlled. The handle can be attached permanently or temporarily to the infusion stall. Preferably, the handle is temporarily connected to the infusion set post 2. The handle may comprise a padding or the like. For example, the handle may comprise foam or similar material which has been wetted with at least one hygienic material layer. The handle makes it possible for the infusion stall to be easily and smoothly carried, for example in connection with home care and mobile medical care.
    Referring to Figures 6, 7A, 7B, 8A, 8B, 8C and 8D, exemplary variants of systems for hanging the present invention are shown. The present invention is defined in these embodiments as a system comprising a number of infusion stalls 1 in accordance with one or more embodiments of the invention.
    Referring to Figure 6, a first embodiment of the present invention is shown in which the stables are intended to be suspended in a stall 50. The stall 50 comprises at least one foot (support device) 51, at least one vertical post 52 and at least one first suspension device 53 on a first vertical level 54 and at least one second suspension device 5 on a second vertical level 56. In the exemplary embodiment, the stable can only hold at least eight folded infusion stalls per vertical level 54 and 56, respectively. In alternative embodiments, it is conceivable that the stable can only hold several or fewer folded infusion stalls. per vertical level than the previously stated number. The stable's 50 feet 51 are preferably provided with wheels, which means that the stable can be moved from one place to another. The stable can furthermore be used for moving stables to and from sterilization or the like. By aft storing stables in stables, the need for floor space decreases to a significant extent.
    Referring to Figures 7A to 7B, an alternative embodiment of the present invention is shown which may be suspended from a cradle or the like. Figure 7A shows how two collapsible stalls 1 can be hung on a suspension member 57 on a cradle or the like. Figure 7B shows how folded infusion stalls can be suspended on at least one rod 58 or the like in a first vertical level 54 and preferably also on a second rod 59 or the like on at least a second vertical level 56.
    Referring to Figure 8A, a variant of a system including a stable in the form of a carriage 60 or the like is shown. The trolley 60 is equipped with wheels. The trolley 60 can make it possible for a stable to be hung up in at least one first vertical level. Preferably, the trolley 60 can possibly be suspended from infusion stall 1 at at least one first vertical level. 54 and at least a second vertical level. With the wheeled trolley 60, for example, the stables can be moved to and from storage spaces, to and from sterilization or the like. With the construction, the need for floor space where the stables are present is significantly reduced. The trolley comprises an arbitrary number of vertical posts 61 (four are shown in the figure) with the required number of intermediate (connecting) parts 62 between the vertical posts. The trolley is provided with wheels in the exemplary embodiment.
    Referring to Figures 8B and 8C, an alternative variant of a stable is shown where the stable is suspended in at least a first vertical level and in at least a second vertical level. The figure also exemplifies that the protruding suspension means 53 allow stall 1 to be suspended when the suspension means in the infusion stall are turned in the upward direction (shown more specifically in Figure 8C). In the exemplary embodiment of Figure 8B, the stable includes support devices 63 which are provided with wheels. It is conceivable that the stable has no wheels.
    Referring to Figure 8D, an alternative system is shown which consists of a suspended suspension device 64 which is connected to the roof 65. In the schematic exemplary embodiment the suspension device 64 comprises at least one elongate body 66 such as a rod, a rudder or other elongate body 65. The elongate body 65 is connected to the ceiling with one or more fasteners. 67. Fasten 67 may be of someone from the previous edge Caste. The construction comprises any number of suspension devices 53 with any number of suspension means 68. The suspension means 68 in the suspension devices are preferably elongate (axle, rod or the like) so that the stable can be suspended with the hook-like suspension means of the stable turned upwards. The twisted suspension means of the stable are brought in from the bar, the free spirit of the shaft, and's hanging to be used. Two or more stalls can have bongos per stand. In the figure, at least one second roof bracket has been omitted.
    In the detailed description of the present invention, construction details which are obvious to a person skilled in the art can be omitted. Such obvious constructional details are to the extent required in order to achieve a satisfactory function of the present invention. For example, components such as screw connections, multi-component bearings to the extent required for a satisfactory function of the structure in accordance with the present patent application to be obtained.
    Although certain preferred embodiments have been described in detail, variations and modifications within the scope of the invention may become apparent to those skilled in the art within the scope of the invention and all such are considered to fall within the scope of the appended claims.
    Advantages of the Invention The present invention provides a number of advantages. Firstly, an improved infusion stall and a system for storing and moving infusion stalls are obtained, which solves, or reduces, at least one of the technical problems mentioned in the background or in the description.
    Another advantage of the infusion fit in accordance with the present patent application is ease of use. Another advantage of the infusion stall is that it can collapse so that the stall takes up little space. A further advantage of the present infusion stall is that it comprises a suspension device with which the stall can be effectively hung up together with a number of other stalls when not in use. It is furthermore an advantage of the present infusion stall because it is relatively light and thereby enables a simple movement in connection with sterilization of the stall and the like. A further advantage of the infusion stall is that it includes fewer parts than previously known stables and thereby can be manufactured and assembled more cost-effectively than previously known types of stables. The infusion stall also has the advantage of being easily sterilized. The stable is also easy to handle, both in connection with use as an infusion stable, in connection with sterilization, in connection with the stable being moved and stored.
    权利要求:
    Claims (10)
    [1]
    That the fixed hub (32) comprises an upper part (36) and a lower part (37) whose lower part (36) and lower part (37) comprise the corresponding number of recesses (47) as the number of legs (35). 2. that the movable hub (33) comprises a first part (44) and a second part (45) which are connected to each other via quick couplings. 3. that the strut (35) is rotatably arranged via at least one shaft located in a transverse recess in the fixed hub.
    [2]
    Stable (1) for infusion passes according to claim 1, characterized in that the suspension device (3) comprises at least one first suspension member (20) and 16 at least a second suspension member (21) which are rotatably attached to the post (2) about a common axis of rotation .
    [3]
    Stable (1) for infusion pads according to claim 1, characterized in that the suspension device (3) comprises at least one first suspension member (20) and at least one second suspension member (21) which are rotatably fixed in the post (3) about separate axes of rotation.
    [4]
    Stable (1) for infusion passes according to claim 1, characterized in that the suspension device (3) comprises at least one first suspension member (20) and at least a second suspension member (21) which are rotatably attached to the post (2) about a common axis of rotation and that the suspension device (3) comprises at least a third suspension member (27) and at least a fourth suspension member (28) which are rotatably attached to the post (2) about separate axes of rotation.
    [5]
    Stable (1) for infusion passes according to claim 1, characterized in that the third part of the post (2) comprises at least one internal stiffening.
    [6]
    Stable (1) for infusion passes according to claim 1, characterized in that the suspension device comprises at least a fifth suspension means with which the stable can be suspended in its entirety.
    [7]
    Stall (1) for infusion passes according to at least one of the preceding claims, characterized in that the suspension means are claw-like.
    [8]
    Stable (1) for infusion passes according to at least one of the preceding claims, characterized in that the struts and hubs are made of a material which has a temperature above 100 degrees C.
    [9]
    Stable (1) for infusion passes according to at least one of the preceding claims, characterized in that the struts and hubs are made of a material which has a temperature above 1 degree C.
    [10]
    Stable (1) for infusion passes according to at least one of the preceding claims, characterized in that the profile of the legs consists of an open profile. / Fif% 2- flc; St4 0458 / r 819 6) 3D ft6.1- (E. 3 rt-7t6, ii b I 2 2z L 4-16, sA 2_5 i912 V7 17 PK 74 b "$ 5 t .4- 6 R ec
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    同族专利:
    公开号 | 公开日
    EP3283143B1|2020-01-22|
    SE541079C2|2019-04-02|
    WO2016118061A1|2016-07-28|
    EP3283143A4|2019-01-23|
    EP3283143A1|2018-02-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4807837A|1986-04-23|1989-02-28|Eugene A. Anderson|Portable intravenous stand|
    US4744536A|1986-06-25|1988-05-17|Icu Medical, Inc.|Collapsable pole and stand combination|
    US4892279A|1987-05-04|1990-01-09|Polymedical Technologies, Inc.|Fully portable medical I.V. equipment stand/pole|
    DE9201579U1|1992-02-08|1992-04-02|Otto Wiederkehr Feinmechanik, 7815 Kirchzarten, De|
    US7281691B2|2003-04-17|2007-10-16|Adelman Gregg Z|Transportable intravenous bag stand|
    SE538856C2|2012-01-10|2017-01-03|Tarsus Products Ab|System for storing collapsible infusion sets|
    US8567730B1|2012-09-05|2013-10-29|Cherie Stevenson|Collapsible intravenous fluid pole system|CN110051904B|2019-05-05|2021-06-08|青岛大学附属医院|Infusion support supporting structure and installation and use method thereof|
    TW202112313A|2019-07-25|2021-04-01|紐西蘭商費雪 & 佩凱爾關心健康有限公司|Medical pole, components, and identification system|
    CN110755710B|2019-09-16|2021-08-10|四川大学华西医院|Multifunctional infusion support|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1500037A|SE541079C2|2015-01-23|2015-01-23|Stands for infusion bags and systems for storing several infusion sets|SE1500037A| SE541079C2|2015-01-23|2015-01-23|Stands for infusion bags and systems for storing several infusion sets|
    PCT/SE2016/000002| WO2016118061A1|2015-01-23|2016-01-22|Stand for iv bags and a system for storing multiple iv stands|
    EP16740467.2A| EP3283143B1|2015-01-23|2016-01-22|Stand for iv bags and a system for storing multiple iv stands|
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