Cover

A cover (101) for being located on an infusion device, which cover (101) comprises an upper plate element (103) with an upper face (104) and a lower face (105) oriented towards the upper face of the infusion device, wherein the lower face (105) of the plate element (103) comprises attachment means (106), which means cooperate with elements on the infusion device.Hereby the risk of bacteria and soil collected thereon penetrating into the construction, is reduced considerably, and likewise the cover yields a smoother surface with an ensuing minimisation of the risk of the infusion device being torn off.

FIELD OF THE INVENTION

The invention relates to a cover for being located on an infusion device, said cover comprising an upper plate element with an upper face and a lower face oriented towards the upper face of the infusion device.

BACKGROUND

In connection with an infusion device being located on the skin, it is known to shield it; such shielding, however, involving a complete covering of the infusion device and in such a manner that it becomes inaccessible to manipulation from the outside.

One example of this is known for instance from WO 87/06474. This discloses a device that can be strapped to the body over the location of insertion of an intravenous needle to shield the puncture area against contact and for anchoring the tube so that the needle will not be pulled out inadvertently.

However the construction necessitates use of an additional frame for securing the infusion device and also for securing the dome that shields the entire infusion device and is also manufactured to be very voluminous. There is thus a risk of it being torn off during use and, likewise, it prevents access to the infusion device and, furthermore, there is a risk of the adhesive effect ceasing and, likewise, it cannot be expected that adjustments of the shielding are possible as the adhesive effect will cease.

BRIEF SUMMARY OF THE INVENTION

It is thus the object of the present invention to provide a cover that remedies the problems that may occur in connection with the prior art covers and whereby complete or partial shielding of the upper free face of the infusion set is enabled, but wherein the lower face is unshielded and the side faces are also partially unshielded, and wherein a shielding of the plate takes place directly on the infusion device. Hereby it is obtained that the risk of bacteria and soil collected thereon penetrating into the construction is reduced considerably, and likewise the cover enables a smoother surface with an ensuing minimisation of the risk of the infusion device being torn off.

This object is obtained by a cover for being located on an infusion device and wherein the lower face of the plate element also comprises attachment means, said means co-operating with elements on the infusion device.

Thus, the cover functions in that, by means of its attachment means that are provided on the lower free face, it fits into the upper face of the infusion device and by a press fitting ensures that the cover is securely attached onto the infusion device due to the clamping effect obtained between the individual attachment means and can be reinforced by the infusion device preferably comprising, as described in the attached claims, a side flange, and wherein this side flange cooperates with the attachment means to bring about a secure attachment of the cover on the infusion device.

Preferably the upper face of the infusion device is configured with recesses, on the one hand longitudinally extending recesses and rather rounded cavities, and consequently the attachment means match these cavities and bring about the attachment. The upper face of the cover is smooth throughout and the entire lower face of the cover is essentially congruent with the upper face of the infusion device, whereby the adaptation is optimised. The cover may be removed by side flanges, if any, being seized thereby exposing the entire infusion device. The cover can be configured such that the upper plate does not cover the entire infusion device, but merely comprises a tongue portion that extends across a portion of the upper face of the infusion device and an essentially partially circular part that covers the remainder.

In one embodiment of the present invention, the cover further comprises a flange that forms a first angle in relation to the upper plate and is connected thereto, in case the infusion device that consists of two parts is separated it is possible—due to the presence of the flange—for the cover to remain in place on the part designated the cannula part; the attachment means and the flange bringing about a squeezing effect that secures the cover in position.

In another embodiment of the present invention, the cover includes a face of the flange facing towards outer side faces of the infusion device that is congruent therewith, thus an optimal complete or partial shielding of the infusion device is obtained.

In yet another embodiment of the present invention, a cover is provided wherein the expanse of the upper plate element is smaller than the expanse of the upper face of the infusion device, and wherein the flange extends partially around the side faces of the infusion device which makes it possible to seize the exposed parts of the infusion device and thus to carry out a separation thereof.

In another embodiment of the present invention, a cover is provided wherein the attachment means are male parts and that the elements on the infusion device are provided by recesses that enable close contact between the cover and the infusion device, and whereby a click-attachment is obtained.

In yet another embodiment of the present invention, a cover is provided wherein the attachment means are male parts and that the elements on the infusion device are provided by recesses, the attachment means further comprise at least two protruding plate elements located at a second mutual distance, and the protruding plate elements comprise rectangular plate-shaped elements extending perpendicularly to the lower face that bring about a convenient shape of the attachment means.

In another embodiment of the present invention, a cover is provided wherein the protruding plate elements comprise a concave delimiting edge and concave side face that enable separation of the hub and cannula part while simultaneously the cover remains in place on the cannula part.

The invention will now be explained in further detail with reference to the drawing wherein

DETAILED DESCRIPTION OF THE INVENTION

The infusion set ofFIG. 1comprises a cannula housing1with a soft cannula2secured therein and manufactured in a conventional manner of a suitable plastics material. The infusion set further comprises a connecting hub3connected in a conventional manner through a hose4with a lower coupling member5to be used for the coupling thereof to an insulin pump (not shown).

FIG. 2shoves the cannula housing1and the connecting hub3on a larger scale and creating the infusion device102. It appears clearly that together they are of a relatively flat shape and of a uniform thickness and have a substantially plane rear side. When seen from the top, they are together of a substantially circular shape, said shape being interrupted only by recesses7and8, respectively, for facilitating a finger-handling. As illustrated inFIG. 2, the cannula housing1and the connecting hub3are divided substantially along a diametrical central plane, a central projection9being provided on said cannula housing1and projecting into a mating recess in the connecting hub3. InFIG. 3, the cannula2is slightly curved in order to illustrate that it is bendable.

As illustrated inFIG. 3, the cannula housing comprises two guide openings16and15and two locking openings17and18in addition to the rectilinear through bore10. These openings are symmetrically shaped about a plane including the central axis14of the through passageway13and extending perpendicular to the rear side6. The guide openings15and16are elongate openings are adapted to receive mating guide pins21and22on the connecting hub3, cf.FIG. 4.

The locking openings17and18adjacent the guide openings15and16and the central through bore10follow a rectilinear course parallel to the central axis14and consequently also parallel to the guide openings15and16. The locking openings17and18at the bottom are connected to the surface of the cannula housing through a shaft or channel27and28, respectively, extending perpendicular from said locking openings17and18.

The locking openings17and18are adapted to receive mating symmetrically shaped locking pins31and32on the connecting hub3. As illustrated inFIG. 4, these locking pins31and32are engaging with the locking openings17and18.

As illustrated inFIG. 2, curve-shaped recesses37and38are shaped on each side of the locking pins21and22. These recesses ensure that the locking pins31and32can be moved easily by means of a finger.

FIG. 4shows furthermore that centrally the connecting hub3comprises a needle40. When inserted through a membrane in the cannula housing1, this needle provides a connection between the hose4of the infusion set and the through passageway13of the cannula housing1.

Reference now being made toFIGS. 5-9, the cover101will be described in further detail.FIG. 5shows a first exemplary embodiment of a cover101seen from the top and comprising an upper plate portion103which is shaped to be essentially planar and has an upper face104which is plane and smooth. In this case, the upper plate portion103is configured as a partially circular element115that extends into a tongue part114. At the delimiting edge of the plate element corresponding to the partially circular area, it extends into a flange108, wherein flange and plate element form an essentially 90° wide angle—a first angle—to each other. Furthermore, this angle has a partially circular recess116essentially corresponding to the centre axis of the cover and arranged symmetrically thereabout, said recess116ensuring that hoses can freely and unimpededly extend from whatever infusion device shielded by the cover. Thus the cover is configured symmetrically about its longitudinally extending centre axis119. Typically the upper plate portion103will have a thickness within the range 1.5-2 mm. Typically the flange will assume approximately the same thickness, however, optionally thicker in the transition area between plate and flange.

FIG. 6shows the cover shown inFIG. 5, seen from below, from where the lower face105of the plate element103will appear which is essentially plane, optionally slightly curved; such, however, that this face is congruent with the infusion device on top of which it is to be located. This face comprises attachment means106that comprise in this case two types, viz two plate elements111and two partially cylindrical elements110. The two plate elements111are each configured as rectangular plate elements that are cast integrally with the cover and are located perpendicular to the lower face105. The rectangular faces of the plate elements are in parallel with the centre axis114of the cover and are located with a second mutual spacing, corresponding to 9-10 mm. The plate elements are located in such a manner that, when the cover is located on an infusion device, they will fit into recesses on the infusion device, eg the recesses indicated inFIG. 2by37and38. Hereby a firm attachment of the cover to the infusion device is ensured, since—on the one hand—there is a span between the two rectangular plate elements and—on the other—a span between flange and plate elements.

Conveniently the plate elements can be provided with a recess: a partially circular recess facing towards the flange and corresponding to the upper free edge, whereby a nail-shaped cavity is provided and being shown in the drawing with a concave face113that extends into the side faces at a concave delimiting edge112. It is the object of this recess to enable the cover to remain in place when the two parts of the infusion device, viz the cannula housing and the connection hub, are separated and wherein the infusion device remains in position on the cannula housing.

Furthermore, in this exemplary embodiment the attachment means106also comprise the two partially cylindrical elements110that are located with their centre axis perpendicular to the lower face105and located at a first mutual distance in such a manner that they fit into the openings and channels on the infusion device27and28that are shown inFIG. 2. The height of these partially cylindrical attachment means is typically in an order of magnitude of 1 mm. The height of the rectangular plate elements is typically 3.5 mm, whereas the length of the latter is comprised within the range 5-6 mm.

FIG. 7shows a further exemplary embodiment of a cover101and wherein the difference over those described inFIGS. 5 and 6resides in the shape of the attachment means and also the geometrical shape of the upper plate part103. In this case the upper plate element103is shaped to be circular and, likewise, the flange is not provided with a recess116. The rectangular face elements are provided on the same location relative to the infusion device as inFIGS. 5-6, but they do not comprise the concave delimiting edge112, but constitute a true rectangular plate.

Further attachment means are in this case located on the flange, the inner face109of the flange being provided with two blocks117, whose upper and lower delimiting faces are essentially in parallel with the lower face105of the upper plate portion103. These blocks are able to engage either underneath the lower edge of the infusion device or in suitable recesses on the side faces of the infusion device as such.

FIG. 8shows a third exemplary embodiment of a cover according to the invention showing the attachment means106have plate elements111that do not include a concave delimiting edge112. These attachment106means are thus true rectangular plates. Furthermore, the flange108comprises essentially two wall portions118that extend perpendiculary from the flange108and has the same material thickness as the flange. the circular recess116is provided, between the wall portions118and may, engage either in convenient recesses on the infusion device or underneath this lower face. Furthermore the geometrical shape of the upper plate element is not completely circular; recesses having been provided that enable the fingers to more easily seize around the cover.

FIG. 9is essentially identical to the one shown inFIG. 8, but wherein the perpendicular118extending from the flange108is not provided.

Conveniently the cover is made in an injection moulding process and wherein suitable materials are M-ABS and PC-ABS.

FIG. 10shows a cover essentially like the one shown inFIGS. 5-6located on an infusion device corresponding to an infusion device as taught inFIGS. 1-4. Thus the cover is shown to cover any recesses and cut-outs present in the upper face of the infusion device, and wherein the flange108engages downwards around the rear side face of the infusion device and corresponding to the rearmost face of the cannula housing and with a circular recess116that ensures free access of the hose from the infusion device. When the infusion device is thus to be used, its recesses7and8are seized and wherein the fingers are pressed towards each other on each their side. By this process the cannula housing and the connection hub are separated from each other. Due to the shape of the cover and the engagement of the attachment means in relation to the infusion device, it remains in place on the cannula housing, while the connection hub is separated off. Subsequently the infusion device can be used as is also taught in eg U.S. Pat. No. 5,522,803.

The cover is not intended for use merely in connection with such infusion device; of course, it may also lend itself to other geometries, wherein the essential aspect is thus that the lower face of the cover has attachment means that engage with elements on the upper face of the infusion device, typically by male/female engagement functionality, wherein the male part is located on the lower face of the cover and wherein the female part are the recesses and other cut-outs that are typically present on the upper face of an infusion device. Whether the upper face of the infusion device is curved or concave, flat or triangular is of lesser relevance, the cover being essentially manufactured with a plate element which is congruent with the face and thus covers the same completely or partially.