EP3289911A1 - Dispositif de maintien pour ampoules - Google Patents

Dispositif de maintien pour ampoules Download PDF

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Publication number
EP3289911A1
EP3289911A1 EP17188646.8A EP17188646A EP3289911A1 EP 3289911 A1 EP3289911 A1 EP 3289911A1 EP 17188646 A EP17188646 A EP 17188646A EP 3289911 A1 EP3289911 A1 EP 3289911A1
Authority
EP
European Patent Office
Prior art keywords
rail
holding
ampullarium
holding jaw
foot
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP17188646.8A
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German (de)
English (en)
Inventor
Peter Ronge
Ralf Henne
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hum Gesellschaft fur Homecare und Medizintechnik Mbh
Original Assignee
Hum Gesellschaft fur Homecare und Medizintechnik Mbh
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hum Gesellschaft fur Homecare und Medizintechnik Mbh filed Critical Hum Gesellschaft fur Homecare und Medizintechnik Mbh
Publication of EP3289911A1 publication Critical patent/EP3289911A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61JCONTAINERS SPECIALLY ADAPTED FOR MEDICAL OR PHARMACEUTICAL PURPOSES; DEVICES OR METHODS SPECIALLY ADAPTED FOR BRINGING PHARMACEUTICAL PRODUCTS INTO PARTICULAR PHYSICAL OR ADMINISTERING FORMS; DEVICES FOR ADMINISTERING FOOD OR MEDICINES ORALLY; BABY COMFORTERS; DEVICES FOR RECEIVING SPITTLE
    • A61J1/00Containers specially adapted for medical or pharmaceutical purposes
    • A61J1/14Details; Accessories therefor
    • A61J1/16Holders for containers
    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45CPURSES; LUGGAGE; HAND CARRIED BAGS
    • A45C13/00Details; Accessories
    • A45C13/02Interior fittings; Means, e.g. inserts, for holding and packing articles

Definitions

  • the invention relates to a device for holding containers containing liquid, powdered or solid (e.g., tablet shaped) medicaments or medical excipients (e.g., saline).
  • the device is used for example in emergency kits by family doctors, emergency medical services, or in emergency vehicles and aircraft, for example in firefighters and ambulances or inINShubschraubern.
  • emergency kits by family doctors, emergency medical services, or in emergency vehicles and aircraft, for example in firefighters and ambulances or inignehubschraubern.
  • each typical personal injury or due to the individual experience of the device using staff is the placement of the device with different drugs or excipients and in different amounts, consequently, with different sized containers for the individual drugs or excipients , common in practice.
  • the emergency cases mentioned are also referred to in practice as "ampullarium", in the context of the present proposal, this term is also applied to the device which is disposed within the emergency case and serves to different numbers or sizes of ampoules and similar containers hold.
  • a plurality of containers of different sizes are held in the device, wherein the different container sizes each occur simply or even multiple times can.
  • the capacity of the container may for example be between a few milliliters, for example about 2 to 10 ml, and a few deciliters, for example about 20 to 100 ml.
  • the containers are often designed as ampoules, but can also be designed as bottles and consist in most cases of glass.
  • a secure hold of the containers in the ampullarium is essential, because the individual containers must remain in place, even if, for example, an emergency case or an ampule case designed as a hard case a subsoil is put on.
  • the individual holding elements must allow the reception and the secure hold of differently shaped containers in order to be able to equip the ampullarium according to the individual needs of the user.
  • the ampullarium contains a rail, for example in the form of a plastic strip, on which a plurality of stretchable loops is provided.
  • a band made of a stretchable textile material can run in a serpentine manner through the plastic strip so that it runs alternately on its top side and on its underside, the sections on the upper side forming the aforementioned loops.
  • the individual containers can be inserted into these loops, wherein the elasticity of the loops determines the maximum size of each container to be received. Possibly. it is not possible with corresponding container diameters to equip two immediately adjacent loops simultaneously, which adversely affects the space utilization of Ampullariums.
  • the loops are comparatively small or initially lie flat against the rail, so that the actual loop shape is created only when a container is pushed under the extensible textile material. Since ampoules with their tapered end, namely with Care must be taken to ensure that the ampoules are carefully inserted into the loops when the ampullarium is fitted and that they are not accidentally broken off and thus opened. The assembly of such Ampullariums is therefore relatively cumbersome and time consuming.
  • the ampoule contains a rail of metal, which is provided on its underside with a plurality of mutually alternating grooves and ribs, each extending transversely to the longitudinal direction of the rail.
  • Individual holding jaws are arcuate, so that two holding jaws in each case can be arranged cooperatively so that they can receive and fix a container between them.
  • Each jaw has a foot configured as a ring which engages around the rail and is profiled on its inner surface so as to cooperate with the detents on the underside of the rail. This ensures that the respective holding jaw reliably maintains its position on the rail. For a mounting or dismounting of the holding jaws of the ring can be opened, so that the holding jaw now withdrawn transversely from the rail or pushed onto the rail.
  • the holding jaws are transverse to the rail. This makes it possible to arrange two individual holding jaws at different distances from each other and thus to adapt to different diameters of the male container.
  • the longitudinal axes of the holding jaws are perpendicular to the rail.
  • the diameter adjustment is also possible if the holding jaws are aligned with their longitudinal axes obliquely to the rail, so that in the frame the present proposal also such an arrangement of the holding jaws is understood as "across the rail".
  • the invention has for its object to improve a generic Ampullarium to the effect that this can be equipped quickly and easily for equipping with containers individually.
  • the invention proposes to movably support the foot of a holding jaw on the rail.
  • the holding jaw between two positions back and forth and can optionally take one or the other of these two positions.
  • the one, first position is referred to as a detent position, in which the holding jaw cooperates with a detent of the rail, so that the holding jaw is secured against displacement along the rail and thus fixed in place on the rail.
  • the other, second position is referred to as a release position. In this release position, the latching action is either completely canceled or at least reduced so far that the holding jaw can be moved in the longitudinal direction of the rail.
  • the rail can be equipped with a plurality of holding jaws by these holding jaws, which are each in the release position, can be pushed onto the rail. And in the release position, a displacement of a holding jaw along the rail can be done to change the position of a single jaw or two cooperating jaws and, for example, to adapt to the diameter of an ampoule to be held between the two inner sides of two adjacent jaws.
  • the foot is tiltable relative to the rail.
  • a locking element of the foot can be selectively brought into contact or out of contact with a locking element of the rail and thus in the locking position or in the release position.
  • the tilting movement takes place in the longitudinal direction of the rail, that is to the outside or inwards, wherein the terms "inside” and “outside” are used according to the designations of the outer surface and the inner surface of the holding jaws.
  • the foot assumes its detent position, while he tilts inwards its release position.
  • the holding jaw Upon contact with the container to be held, the holding jaw is tilted by the container to the outside, so takes their detent position, so that the container is held reliably because him holding jaws retain their position on the rail.
  • the one or the two holding jaws can be tilted into their release position.
  • the locking action in the release position is not completely canceled, so the holding jaw can not be moved completely free along the rail, as otherwise alone could be done by gravity in an inclined position of the rail. Rather, in the release position advantageously the locking action can only be reduced, so that overcoming a reduced locking resistance, the holding jaw along the rail can be moved.
  • the material elasticity of Rail and / or provided on the rail latching element, the holding jaw, the holding jaw foot and / or provided on the foot locking element is chosen so that despite the still existing, but low degree of overlap of the locking elements, the holding jaw along the rail can be.
  • the foot-side and / or the rail-side locking elements may have a round contour, e.g. a rounded waveform on the rail, or a semicircular dome as a detent element of the foot, so that with a correspondingly low degree of coverage while a certain hold of the holding jaw on the rail is guaranteed, overcoming a sliding resistance, the holding jaw can be moved by hand force along the rail , Similar to the described round cross-sectional profiling of the locking elements and a straight, provided with inclined surfaces cross-sectional profiling an adjustability of the foot on the rail with a correspondingly low degree of overlap of the locking elements in the release position allow. In contrast, with a larger degree of coverage, namely in the detent position, the non-shift attachment of the holding jaw is ensured.
  • a cross-sectional profile of the rail for example, have a series of grooves as rail-side locking elements, which are each configured approximately Y-shaped.
  • rail-side locking elements which are each configured approximately Y-shaped.
  • the Kippbewegige of the foot from the detent position into the release position can advantageously be done against the action of a spring element.
  • the foot is held in its locked position even if he is not affected by external forces such. the system is urged to an ampoule in its rest position.
  • the foot can be tilted into its release position and then the holding jaw moved along the rail.
  • a secure hold of the holding jaw at a certain position of the rail is also guaranteed if the rail and foot-side locking elements have no overlap in the release position, because by means of the spring element is always basically retained the detent position.
  • the rail and foot-side locking elements in the release position have a low, remaining coverage, although the tilting movement of the foot can be done advantageously against the action of a spring element, but in this case the foot is spring loaded in its release position urged and can against the spring action be tilted into its rest position.
  • the assumption of the detent position is then effected for example against the spring action when the holding jaw rests against a container.
  • the spring effect thus ensures a particularly secure hold of the container, since it presses the holding jaw against the container. It also ensures a particularly simple handling of the holding jaw, if it is to be adjusted along the rail, since the holding jaw basically assumes its release position due to the spring action.
  • the holding jaw has a spring tongue, which is either rigid in itself and movable against the action of a spring, or which is elastically deformable in itself due to their material elasticity.
  • This spring tongue cooperates with a catch of the rail by either itself forms the foot-side locking element, or by carrying the locking element of the foot.
  • the spring tongue is movable outwardly and inwardly on the holding jaw, wherein it moves inwards, assumes its release position and can be moved to the outside in its rest position on the other hand. Since the spring tongue extends downwards, namely to the rail, it is referred to as a foot-side locking element, regardless of where the spring tongue connects to the holding jaw or at the foot.
  • the movement of the spring tongue against the spring effect can be carried out to its rest position in order to simplify the handling of the holding jaw.
  • the spring tongue is thus supported by spring force, basically take their release position. If a slight, even in the release position remaining coverage of the locking elements is ensured, an undesirable adjustment of the jaws can be avoided with the container removed.
  • the spring tongue can advantageously be provided a pressure element which extends to the inside of the holding jaw and protrudes beyond the inside inwards. By the plant of the holding jaw on a container, this pressure element transmits pressure from the container to the spring tongue, so that it is urged outwards into its rest position.
  • a tiltable foot can also - as described above for a tiltable foot - the movement of the spring tongue into its release position inwardly against the spring effect.
  • the spring effect can be overcome manually, in order then to move the holding jaw can. Only the removal of a container between two holding jaws is not sufficient in this case, in order to move a holding jaw, so that they reliably maintain their position on the rail even when removed container.
  • a holding jaw must be overcome, because the foot-side and rail-side locking elements can be freely movable in the release position without any overlap and thus.
  • a particularly reliable hold of the container between two holding jaws can advantageously be effected by a holding jaw having at least one of its two ends an inwardly projecting projection. If the holding jaw is aligned so that it engages under the container by means of this projection, this projection causes a positive connection, so that the container is not determined solely due to the clamping action between two holding jaws. In particular, when the ampullarium is arranged in a preferred direction, accordingly, the holding jaws can be aligned so that the inwardly directed projection engages under the lower end of the container. If the holding jaws are designed as identical parts and not as symmetrical, pairwise cooperating components, it is already ensured that always one of the two identical holding jaws with its projection engages under the container.
  • the holding jaw at its two ends each having an inwardly projecting projection, so that a particularly secure, positive fit for the container is given in both longitudinal directions of the holding jaw.
  • the holding jaws are usually bent concavely on their inside, so that they include a container to over the equator can, and so that accordingly can result in an effective in all directions positive fit, with which the container is fixed between two holding jaws.
  • the retaining jaws are not designed as identical parts, but for example as two different, symmetrical components, the two inwardly projecting projections at the two ends a holding jaw protrude differently far inward.
  • a pair of cooperating holding jaws thus results at one end a larger and at the other end a smaller clearance between the projections, so that for example the two longer projections can engage under the bottom of a container and between the two shorter projections, for example, a "neck" may extend the container.
  • the ampoule can have as smooth as possible surface configured surfaces that can be easily cleaned for example by means of a wiper cleaning.
  • the generic locking elements provided necessary deviations from such a smooth-surfaced configuration.
  • the rail-side locking elements can be arranged at the top of the rail. Dirt that accumulates in the area of the locking elements, are thus immediately visible so that they can be removed as quickly as possible.
  • a still smooth surface configuration of the rail can advantageously be achieved in that the rail-side locking elements are designed as depressions, which do not extend over the entire width of the rail, but which are arranged at a distance from the two longitudinal sides of the rail.
  • the underside and the two longitudinal sides of the rail can be configured accordingly smooth surface.
  • a higher mechanical stability, for example, a higher flexural rigidity of the rail is effected in that the recesses do not extend over the entire width of the rail to the side edges in it.
  • the rail can thus be made of a mechanically less resilient, or from a cheaper material, or it can be designed with smaller physical dimensions - for example, flatter - so that they either economic or constructive advantages in the design of the ampullarium and for example in the use the interior of a housing, a bag or the like forms.
  • a holding jaw has a substantially H-shaped cross section, with a central transverse web extending transversely to the rail, and with two foot webs as parts of the foot extending downwards from the crosspiece to the rail and engage around the two longitudinal sides of the rail, and with two head webs which extend upwards from the crosspiece and are connected to the webs in such a way that the web webs are spread apart when the head webs are pressed together and the holding jaw assumes its release position.
  • This embodiment is based on the consideration that a holding jaw surrounds the rail on the two opposite longitudinal sides of the rail.
  • the holding jaw which are referred to as
  • Basstege similar to open with a pair of pliers, so spread in their release position, or closed in their holding position, so that the holding jaw can be removed in the release position of the rail and in the holding position 29iebehyroid to the rail is fixed.
  • the holding jaw has a substantially H-shaped cross-section.
  • a middle transverse web of the holding jaw runs transversely to the rail, specifically above the rail, so that two foot webs extend from the transverse web downwards, which surround the two longitudinal sides of the rail.
  • two headrails extend upwards from the crosspiece. These head webs are connected to the footbridges in such a way that a movement of the head webs is transmitted to the contemplatstege. If the two head webs pressed to each other, the two footbridges are spread apart by this movement.
  • the holding jaw can be moved relative to the rail.
  • the holding jaw returns elastically automatically back to its holding position and is now fixed against displacement on the rail, for example by a frictional engagement or preferably by a positive connection.
  • the underside is the side of the rail which faces a substrate to which the rail is fastened.
  • the top of the rail is opposite the bottom and faces the containers when the ampullarium is equipped with containers.
  • the two long sides connect the top and bottom of the rail.
  • the simplest cross-sectional geometry of the rail can therefore be in a square, but in practice, in particular, other cross-sectional geometries be used, for example, curved, in which upper, lower or longitudinal sides merge into each other.
  • the holding jaw is movable in its release position only in the longitudinal direction along the rail.
  • the holding jaw is thus adjustable along the rail, but at the same time held captive on the rail.
  • the spreading of the two foot webs can be made so far that the holding jaw is movable not only in the longitudinal direction along the rail, but also is movable transversely to the rail and can be removed in this direction of movement of the rail.
  • the movement can be executed as a pivoting movement, so that the holding jaw can be tilted from the rail to the side, or as a linear movement, so that the holding jaw can be lifted off the rail upwards.
  • the holding jaws can be placed by the mobility transverse to the rail and between adjacent jaws on the rail or removed from the rail. Damaged holding jaws can thus be easily replaced, without previously all adjacent jaws of the Rail must be deducted in order to then postpone the new holding jaw in exchange for the rail can.
  • the headboards are rigidly connected to the footbridges so that movement of the headboards is transferred to the footboards.
  • the transverse web is designed flexible and can be deformed to allow the mobility of the head and foot webs between the respective holding position and the release position of the holding jaw.
  • a hinge point is provided, so that there in each case connect a headstock and the associated footbridge together hinged to the crosspiece.
  • the holding jaw can be produced in a two-component injection molding process, so that the different webs may consist of comparatively harder, more rigid material and at the two ends of the crosspiece hinge points can consist of a contrast softer, more flexible material.
  • the two head webs can overlap by being offset relative to one another when viewed in the longitudinal direction of the rail. If the two head webs are detected and compressed from the outside, the degree of overlapping or overlapping of the head webs thus increases.
  • This mutual movement of the head webs can be limited by integrally formed stops or in that the fingers of the user inevitably limit the movements of the two head webs when they are compressed as much as possible and are prevented on both sides by the fingers to further movement.
  • the head webs are not arranged correspondingly offset, but aligned with each other transversely to the rail, and that between the head webs remains a gap, which limits the mobility of the head webs to each other accordingly.
  • the degree of expansion of the foot webs can be determined, so that the holder is easily removable along the rail displaceable or even across the rail with spread footbridges.
  • An overload of the holding jaw, for example, to breakage of a headstock can be reliably avoided in this way.
  • the holding jaw can be configured as a one-piece component. Even if the holding jaw made of several materials consists, as described with reference to the two-component injection molding, is simplified by the configuration as a one-piece component, the production of the holding jaw, for example, not several separately manufactured components must be mounted to create a holding jaw. Also, no separate components of the holding jaws can be lost during practical operation of the ampullarium.
  • the one-piece holding jaw continuously consists of a single material, so that the manufacturing process particularly simple and the holding jaws can be configured accordingly very inexpensive. Also, a later recycling of the holding jaws is simplified in that they have only a single material.
  • the material may in turn contain several additives, such as a plastic, which is provided with fillers and reinforcing materials or reinforcing fibers and with color pigments or other additives.
  • the rail may have at one of its two ends an integrally formed fastening eyelet, which is accordingly designated as Integralström.
  • the integral eyelet makes it possible to arrange the rail, for example by means of a rivet or a screw on a substrate, for example on a compartment division in a portable container, or on the rear wall of a closet.
  • the integral eyelet is formed directly on the rail, the assembly of Ampullariums is simplified and reduces the number of parts to be handled. Therefore, advantageously, the rail may have an integrally formed fastening eyelet at both ends.
  • the rail has a fastening eye at one of its two ends, which is designed as a separate component.
  • the rail can be made, for example, in a standardized maximum length and have at one or both ends, for example, a mass-integrally molded integral eyelet. If the rail is not to be installed with this maximum length, it can be cut to length to suit the desired special dimension, whereby the shortened end can be mounted to the ground by means of the separate fastening eye.
  • the mentioned separate fastening eye can advantageously be provided with a receiving pocket into which the rail is inserted.
  • the receiving pocket is designed so that the rail is secured in her against movement, which are directed to the two sides, ie transversely to the longitudinal direction of the rail, and upwards by the receiving pocket correspondingly engages the rail form-fitting manner.
  • An advantageous play-free hold of the rail in the receiving pocket can be effected in that the receiving pocket secures the rail even downwards form-fitting.
  • the rail and at least one of the two webs of a holding jaw are positively connected to each other when the holding jaw is in its holding position.
  • the fixing of the holding jaw to the rail can be secured exclusively by friction, however, a positive connection not only allows a particularly secure fixing of a holding jaw on the rail, but also the use of relatively hard materials with relatively smooth surfaces, so that the ampullarium particularly simple can be kept hygienic clean.
  • the top of the rail is free of a profiling that allows this positive connection with the holding jaw.
  • the positive connection may rather be provided in the region of the two longitudinal sides of the rail, so that the upper side is designed to be smooth and accordingly easy to clean.
  • the profiling in the region of the side edge causing the form-fitting can be effected in a lateral or in a downwardly directed surface of the rail, which allows a comparatively simple geometry of the tool used to produce the rail and thus supports the most economical production of the rail.
  • the rail in the region of its two longitudinal sides, against which the foot webs of the holding jaw be designed so that the holding jaw, when it is in its release position, is movable in the longitudinal direction of the rail. It is therefore dispensed with projections in this embodiment, which protrude on the rail to the outside and would prevent such a longitudinal displacement of a holding jaw. Even if the holding jaw is removable in its release position across the rail, for example, can be removed upwards, the possibility to move the jaw along the rail, advantageous to allow particularly quick and easy position corrections of the holding jaw, so that a particularly quick setup of the ampullarium is made possible in adaptation to the respective container to be accommodated.
  • the rail has two continuous, smooth side edges 2 and is provided on its upper side with a plurality of notches, which are designed as elongated recesses 3, which extend transversely across the top of the rail 1.
  • the holding jaws 4 are arranged, which also each extend transversely to the rail 1.
  • the holding jaws 4 each have a foot 5 and are arranged in pairs, so that they each define between themselves, in a so-called interior, a container 6.
  • the container 6 shown on the left as a glass ampoule with a capacity of 10 ml configured while the container 6 shown on the right is designed as a glass bottle with a piercing closure, which allows multiple, repeated access to the contents of the container 6.
  • the container 6 shown on the right has a larger capacity than the illustrated on the left, only once to be used ampoule.
  • holding jaws 4 shown each have at its two ends in each case an inwardly projecting projection 7.
  • a projection 7 of a holding jaw lies against the bottom of a container 6, while the respective other projection 7 of the same holding jaw 4 extends in the direction of the neck of the respective container 6.
  • the holding jaws 4 have concavely curved inner sides, so that they bend the respective container 6 and engage around beyond the equator of the container 6.
  • Fig. 2 shows that the holding jaw 4, which holds the designed as a vial container 6, a foot 5 which rests with 2 outer sections on the smooth side edges 2 of the rail 1, while between these two sections of the foot 5, a spring tongue 8 is arranged ,
  • the spring tongue 8 engages with its lower end in a recess 3 of the rail 1 and thus causes a locking of the holding jaw 4 on the rail 1.
  • the spring tongue 8 is against the spring action in its locked position.
  • Fig. 3 shows the holding jaws 4 after removal of the ampoule from the interior between the two holding jaws 4.
  • the two jaws 4 are designed as identical parts completely identical.
  • the spring tongue 8 of the holding jaw 4 connects at its upper end to the holding jaw 4 and is otherwise freely movable between the two sections of the foot 5.
  • the pressure element 9 protrudes inwards over the inside of the Holding jaw 4 addition. If a container 6 is inserted into the interior between 2 holding jaws 4 or a holding jaw 4 along the rail 1 brought to a container 6 and brought into contact with the container 6, the pressure element 9 causes the spring tongue 8 from its unloaded position Fig. 3 is pushed outwards, against the spring action, in their in the FIGS. 1 and 2 illustrated detent position.
  • Fig. 3 is the holding jaw 4 and the spring tongue 8 in the release position, so that now the holding jaw 4 along the rail 1 can be moved.
  • Fig. 4 shows the rail 1 from below. It is configured in a smooth-surfaced manner in comparison to its top side and has two stiffening ribs which improve the flexural rigidity of the rail 1.
  • Fig. 5 shows a second embodiment of a rail 1.
  • the holding jaws 4 substantially correspond to the holding jaws 4, as they are in Fig. 1 are shown on the right to hold the designed as a glass bottle container 6.
  • the holding jaws 4 of Fig. 5 no inwardly projecting projections at both ends.
  • the holding jaws 4 of Fig. 5 are tiltably mounted and have on their inner side two pressure strips 11, with which they rest against a container 6. By contact with the pressure bars 11, a holding jaw 4 is tilted outwards, because it is tiltably mounted on the rail 1 in the region of its foot 5. Due to the outward tilting movement gets an outer edge 12 of the foot 5 down and immersed in the recesses 3 of the rail 1, so that these tilted outward position of the holding jaw 4 represents the detent position. After removal of the container 6, one or both holding jaws 4 can be tilted inwards, in a release position, in which the outer edge 12 of her foot 5 from the wells 3 of the rail 1 device, so that now the holding jaw 4 can be moved along the rail.
  • a rail 1 in each case, which has two longitudinal sides 14, an upper side 15, and a lower side 16, which can be facing a mounting surface.
  • two holding jaws 4 are shown and a separate attachment eye 18, which is designed as a separate component and has a receiving pocket 19, in which the rail 1 is inserted with its local end.
  • a profiling 20 can be seen in the longitudinal side 14 of the rail 1. It forms the notches, which serve for the secure displacement of the retaining jaws 4.
  • the holding jaws 4 are each with their foot 5 on the long sides 14 of the rail 1 at.
  • Fig. 7 is that compared to Fig. 6 opposite end of the rail 1 shown.
  • the rail 1 has there no separate, but one integrally formed on the rail 1, referred to as integral eyelet 21 mounting lug.
  • Fig. 8 shows the profiling 20, which consists of a plurality of splints 22 and accordingly creates many notches that can cooperate with the holding jaws 4.
  • the holding jaws 4 are each configured essentially H-shaped and have a transverse web 23, to which two head webs 24 and two foot webs 25 connect at the top.
  • the satisfiedstege 25 embrace the rail 1 in the region of its two longitudinal sides 14 and in turn have respectivelystegzähne 26, which cooperate with the rail teeth 22 of the rail 1 and cause a form fit, which determines the retaining jaw 4 against displacement on the rail 1.
  • a gap 27 is provided between the two head webs 24 of a holding jaw 4, a gap 27 is provided.
  • the two head webs 24 of a holding jaw 4 are arranged in alignment with each other and each have on the outside, on their side remote from the gap 27 side a pressure surface 28.
  • a user can grasp the holding jaw 4 at its two opposite pressure surfaces 28 and the two head webs 24 to each other bend until the gap 27 is closed and the two head webs abut each other, so that in this way the maximum possible bending of the holding jaw 4 is limited.
  • the two foot webs 25 of the holding jaw 4 are spread apart, so that the mecanicstegzähne 26 of the two whostege 25 out of engagement with the rail teeth 22 of the profiling 20 of the rail 1 and in this way the holding jaw 4 in Can be moved longitudinally along the rail 1 along.
  • the holding jaw 4 can therefore be removed transversely from the rail 1, z. B. be deducted upwards from the rail 1.
  • a holding jaw located in its release position 4 can be placed from above on the support rail 1 and does not need to be threaded in the longitudinal direction of the rail 1 to its desired mounting location on the rail 1 and moved on the rail 1.
EP17188646.8A 2016-08-31 2017-08-30 Dispositif de maintien pour ampoules Withdrawn EP3289911A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE202016104809.5U DE202016104809U1 (de) 2016-08-31 2016-08-31 Ampullarium
DE202017102818.6U DE202017102818U1 (de) 2016-08-31 2017-05-10 Ampullarium mit Federclips

Publications (1)

Publication Number Publication Date
EP3289911A1 true EP3289911A1 (fr) 2018-03-07

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EP17188646.8A Withdrawn EP3289911A1 (fr) 2016-08-31 2017-08-30 Dispositif de maintien pour ampoules

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EP (1) EP3289911A1 (fr)
DE (2) DE202016104809U1 (fr)

Cited By (1)

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CN113274198A (zh) * 2021-05-20 2021-08-20 大连医科大学附属第二医院 一种麻醉科医生专用外出急救装置

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202016104809U1 (de) 2016-08-31 2016-12-20 Peter Ronge Ampullarium
DE202019104388U1 (de) * 2019-08-09 2020-11-10 Rocksnake GmbH & Co. KG Lagerungssystem für Ampullen
DE102020132035A1 (de) 2020-12-02 2022-06-02 Fleischhacker GmbH & Co. KG Laboreinrichtungen Medizintechnik Aufnahmevorrichtung für Ampullarium und Ampullarium

Citations (3)

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