Patent Description:
Moreover, the invention relates to an infusion system and a method for using the infusion system.

Infusion devices are devices for releasing medicines in the body of a patient or of a user.

Such devices comprise catheters for delivering fluid which include a cannula suitable for insertion into a cavity of the body of a patient. In particular, the cannula allows the medicine to flow and hence to deliver the medicine to the patient.

Such devices are provided with a base portion and a cap portion which define a body that partly contains the catheter. The cannula protrudes, in fact, from the base portion in such a way as to allow it to be inserted into the body of the patient.

The base portion comprises a sticking plaster to allow the device to be attached to the patient. The sticking plaster comprises a peelable sheet and an adhesive component. In particular, the peelable sheet is removable in such a way as to make accessible the adhesive component intended to adhere to the skin of the patient.

The cap portion is fixed to an insertion needle which is designed to penetrate the skin during a first insertion of the cannula. The insertion needle is, in fact, of a size such that it can be housed in the catheter and comes out of the cannula in such a way that it can reach and penetrate the skin so that the subsequent first insertion of the cannula can be made possible.

However, these devices may be difficult to insert for a non-expert user who must apply the infusion device on him/herself.

In particular, the fear of the pain or the inexperience might lead to the user inserting the device incorrectly.

For this reason, applicators are known for the above-mentioned infusion devices which are generally defined by snap-on mechanisms which allow the application of the device after the pressing of a button or other similar actuating means.

Patent documents <CIT>, <CIT> and <CIT> describe further types of devices.

<CIT> describes an insertion device comprising a grip positioned in a position proximal to the base. According to a first configuration, the needle is located in a position spaced from the adhesive layer. The device is provided with an inner guide comprising a carriage. In an insertion position the handle is lowered by the pushing action of the spring. A shuttle supports the needle retaining device. The internal guide, the shuttle and the base are connected to each other by the flaps and the fingers. The shuttle and the guide are axially mobile relative to the base. When the device is moved towards the skin of the user, the needle is inserted into the skin. When the flanges of the base engage the fingers after the insertion movement, the fingers disengage from the edge of the guide, thus withdrawing the needle.

<CIT> describes a manual feeding injection device which self-administers a painless injection. The injection device comprises a housing having an outer body, a carriage for a needle, means for retaining a liquid composition and a base. The carriage is configured for performing a movement along the central axis perpendicular to the base. The device is provided with a guide wall in which the carriage can move. A retaining heel is pushed towards the inside from an opening in the guide wall. The withdrawal spring is compressed between the lower part of the carriage and the base. When the carriage passes to the completely inserted position, it passes by the heel which momentarily leaves the opening and then re-inserts. The heel forms part of a release arm which, when pressed, allows the needle to be withdrawn.

Patent <CIT> describes a control device, which can be used in an apparatus for administering medicines, comprising a housing, a pushing mechanism mounted to move with respect to the housing, a supplier of force positioned between the housing and the pushing mechanism for moving the pushing mechanism with respect to the housing, and a coupling mechanism to selectively limit and allow the relative movement between the housing and the pushing mechanism. The dragging mechanism can be configured to push against a tank of the apparatus for transdermal administration of the drug. The coupling mechanism can include flexible arms which extend between the opposite ends of the coupling mechanism, and the coupling mechanism can be configured in such a way that the arms release the pushing mechanism in response to the opposite ends which are forced towards each other.

Disadvantageously, the prior art applicators may suffer from problems such as, for example, the unwanted removal of the infusion device once the skin of the patient has been penetrated.

A further drawback may lie in the non-optimum adhesion of the sticking plaster which, during use or immediately after application of the infusion device, could yield and detach from the skin of the user, resulting in an undesired total or partial removal of the device. If the removal is partial and possibly imperceptible to the user it is also possible that there is a non-optimum dispensing of the fluid which would therefore result in a potentially ineffective treatment.

The technical purpose of the invention is therefore to provide an applicator for infusion devices, an infusion system and a method for using the infusion system which is/are able to overcome the drawbacks of the prior art.

The aim of the invention is therefore to provide an applicator for infusion devices, an infusion system and a method for using the infusion system which allow(s) an optimum adhesion of the infusion device to be obtained.

A further aim of the invention is to provide an applicator for infusion devices, an infusion system and a method for using the infusion system which is/are easy to use also for a non-expert user.

The technical purpose indicated and the aims specified are substantially achieved by an applicator for infusion devices, an infusion system and a method for using the infusion system comprising the technical features described in one or more of the appended claims. The dependent claims correspond to possible embodiments of the invention.

In particular, the technical purpose indicated and the aims specified are substantially achieved by an applicator for infusion devices comprising a main body comprising an access opening and an upper opening coaxial with each other and defined respectively in a lower portion and an upper portion of the main body, a central body positioned inside the main body and comprising a containment seat for the infusion device facing towards the access opening for housing the infusion device, a dragging element comprising a first portion, wherein a first end is connected or connectable to the central body and passes through the upper opening, and a second portion, which can be pressed by a user, positioned at a second end of the first portion, and actuating means connected or connectable to the central body.

The central body is movable inside the main body between a first configuration, wherein the central body is positioned in the lower portion of the main body and the first portion of the dragging element is positioned inside the main body, and a second configuration wherein the central body is positioned in the upper portion of the main body and the first portion of the dragging element is positioned outside the main body.

The central body is movable by pressure from the user from the first configuration to the second and the actuating means can be operated by a user to move said central body from the second to the first configuration for applying, in use, the infusion device, housed in the containment seat of the central body, to the skin of the user.

The second portion can be pressed, when the central body is in the first configuration after the application of the infusion device, in such a way as to further move the central body towards the access opening to promote a homogeneous adhesion of the sticking plaster of the infusion device to the skin.

Moreover, the technical purpose indicated and the aims specified are substantially achieved by an infusion system comprising an applicator described above and an infusion device comprising an infusion body, comprising a supporting base from which protrudes a cannula-shaped element of a catheter, and a removable closing element provided with a needle suitable for penetrating the skin of the body of the user. The supporting base comprises a sticking plaster to allow the device to be attached to the body of the patient.

The infusion device can be coupled by fitting into the containment seat of the central body of the applicator.

Moreover, the technical purpose indicated and the aims specified are substantially achieved by a method for using an above-mentioned system and comprising the steps of preparing an applicator, preparing an infusion device, coupling the infusion device by fitting in the containment seat of the central body, pressing the central body, to which the infusion device is coupled, inside the main body defining the second configuration, placing the applicator on the skin of a user, operating the actuating means by moving the central body to the first configuration in such a way as to apply the infusion device to the skin of the patient, further moving the central body towards the access opening, by pressing the second portion of the dragging element, to promote a homogeneous adhesion of the infusion device to the skin and moving said applicator away from the skin of the user.

Further features and advantages of the invention are more apparent in the non-limiting description which follows of a non-exclusive embodiment of an applicator for infusion devices, an infusion system and a method for using the infusion system.

With reference to the accompanying drawings, the numeral <NUM> denotes in its entirety an applicator for infusion devices <NUM> which, for simplicity of description, will hereafter be referred to as applicator <NUM>.

The applicator <NUM> comprises a main body <NUM> defining a containment space and comprising an access opening 2a and an upper opening 2b. The access opening 2a and the upper opening 2b are coaxial with each other and are defined respectively in a lower portion 2c and an upper portion 2d of the main body <NUM>. The terms "lower" and "upper" refer to the orientation of the applicator <NUM> as shown in the accompanying drawings. Moreover, the lower portion 2c and the upper portion 2d may be indicated both with reference to external and/or internal portions of the main body <NUM> and with reference to the applicator <NUM>.

The main body <NUM> also comprises at least one lateral opening 2e. Preferably, the lateral opening 2e is defined in the upper portion 2d of the main body <NUM>.

Preferably, and as shown in the accompanying drawings, the main body <NUM> may comprise two lateral openings 2e.

Preferably, with reference to a further embodiment illustrated in <FIG> and <FIG>, which will be described in more detail below, the main body <NUM> may comprise at least one guide <NUM>, in the upper portion 2d, having an end leading into the lateral opening 2e. Where, as shown in the accompanying drawings, the main body <NUM> comprises two lateral openings 2e, the main body <NUM> comprises two respective guides <NUM>.

Preferably, the guide <NUM> (or both the guides <NUM>) has a second end leading inside the main body <NUM>.

Preferably, the main body <NUM> extends along a relative axis of extension "X". Preferably, and as shown in the accompanying drawings, the axis of extension "X" also defines the main axis of the applicator <NUM>. For this reason, the access opening 2a and the upper opening 2b are coaxial with each other relative to the axis of extension "X".

Preferably, the main body <NUM> is substantially cylindrical in shape or in any case has a circular base section.

Preferably, the main body <NUM> has, on an outer surface of the main body <NUM>, lateral flaps 2f defining an improved gripping surface, as shown for example in <FIG>.

The applicator <NUM> also comprises a central body <NUM> positioned inside the containment space and comprising a containment seat 3a for the infusion device <NUM>. The containment seat 3a faces towards the access opening 2a. In other words, through the access opening 2a it is possible to introduce the infusion device <NUM> and couple it to the containment seat 3a.

Preferably, the containment seat 3a is shaped in such a way as to allow the coupling by the fitting of the infusion device <NUM>.

Preferably, the containment seat 3a is shaped to match the infusion device <NUM>.

Preferably, the containment seat 3a of the central body <NUM> also comprises a through hole 3b facing towards the upper opening 2b. In other words, the through hole 3b defines a passage between the containment seat 3a and the portion of containment space positioned above the central body <NUM>.

Preferably, the containment seat 3a of the central body <NUM> has a first portion directly facing the access opening having the shape substantially of a spherical cap and a second portion, positioned above the first portion, having a substantially cylindrical shape, as for example shown in the accompanying drawings (<FIG>). The first portion having the shape substantially of a spherical cap is suitable for retaining an infusion body <NUM> of the infusion device <NUM> whilst the second portion having a substantially cylindrical shape is suitable for retaining at least one portion of a closing element <NUM> of the infusion device <NUM>.

Other shapes of the containment seat 3a are possible depending on the shape of the respective infusion device <NUM>.

Preferably, the central body <NUM> comprises a plurality of openings 3c defined on an upper edge of the central body <NUM>. In other words, the openings 3c face towards the upper opening 2b.

Preferably, the central body <NUM> has a circular cross section.

The applicator <NUM> also comprises a dragging element <NUM> comprising a first portion 4a having a first end connected or connectable to the central body <NUM>. The first portion 4a passes through the upper opening 2b. Moreover, the upper opening 2b defines a passage in which said first portion 4a can move to enter into or exit from the containment space.

The dragging element <NUM> also comprises a second portion 4b positioned at a second end of the first portion 4a. The second portion 4b defines a pressing surface which can be pressed by a user. The technical advantages of this pressing of the second portion 4b will be described in more detail below.

However, it should be noted that the dragging element <NUM> does not act as an actuating button of the applicator <NUM>. In other words, the purpose of the dragging element <NUM> is not to actuate a mechanism for releasing the infusion device <NUM>.

Preferably, the first portion 4a of the dragging element comprises a plurality of flaps 4c which can engage with a corresponding number of openings 3c of the central body 3c. In other words, the flaps 4c and the openings 3c define connecting means between the central body <NUM> and the dragging element <NUM>.

Preferably, the dragging element <NUM> also comprises an elongate body 4d configured for, during a pressing of the second portion 4b, passing through the through hole 3b. In other words, the through hole 3b faces towards the dragging element <NUM>. In a manner similar to that described above, the technical advantages of this feature will be described in more detail below. Preferably, and as for example shown in the accompanying drawings, the central body <NUM> comprises protruding portions 3d extending parallel to the first portion 4a of the dragging element <NUM> and configured to define an end stop of the dragging element <NUM> (in particular of the second portion 4b) when pressed.

Preferably, as shown for example in <FIG>, the protruding portions 3d are provided with hook-shaped ends 3d' to ensure the engaging between the central body <NUM> and the dragging element <NUM>.

According to the further embodiment shown in <FIG> and <FIG>, the central body <NUM> also comprises retaining portions 3e extending substantially parallel to the first portion 4a of the dragging element <NUM> and having hook-shaped ends 3e'. The retaining portions 3e, in particular the ends 3e', are configured to be engaged inside the end of the guides <NUM> which leads inside the main body <NUM>, as described in more detail below.

The applicator <NUM> also comprises actuating means <NUM> connected or connectable to the central body <NUM>.

Preferably, the actuating means <NUM> comprise at least one button 5a movable towards or away from the central body <NUM>.

Preferably, according to the embodiment wherein the central body <NUM> has a circular cross section, the button 5a is movable radially relative to the central body <NUM>.

Preferably, with reference to the embodiment of <FIG>, <FIG>, <FIG> and <FIG>, the button 5a may be connected or connectable to the central body <NUM> by a suitable elastic element, even more preferably by a spring 5b.

Preferably, with reference to the embodiment of <FIG> and <FIG>, the button 5a may comprise a sliding portion 5d and a pressable portion 5e. According to this embodiment, the sliding portion 5d of the button 5a is configured to slide in the guide <NUM>. Moreover, the button 5a is connected or connectable to the main body <NUM> by means of a suitable elastic element, even more preferably by at least one spring 5b, connecting the pressable portion 5e with the main body <NUM>. In the accompanying drawings, the button 5a is connected to the main body <NUM> by two springs 5b.

Preferably, and as shown in the accompanying drawings, the actuating means <NUM> comprise two buttons 5a (and respective elastic elements) positioned in opposite lateral portions of the central body <NUM>, that is to say, of the main body <NUM>. According to this embodiment, the main body <NUM> comprises two lateral openings 2e positioned in opposite portions of the upper portion 2d of the main body <NUM>.

Preferably, the actuating means <NUM> also comprise a loading spring 5c the ends of which are respectively connected to the central body <NUM> and to an inner perimeter edge of the upper opening 2b of the main body <NUM>. With reference to <FIG>, the portion below the guide <NUM> defines a connecting portion, that is to say, retaining the upper end of the loading spring 5c.

With reference to the operation of the applicator <NUM>, the central body <NUM> is movable inside the containment space (that is to say, inside the main body <NUM>) between a first configuration and a second configuration (corresponding to a first and a second configuration of the applicator <NUM>).

The first configuration of the applicator <NUM> coincides with a rest configuration of the applicator <NUM> (<FIG> and <FIG>) or with a configuration after application of the infusion device <NUM> (<FIG> and <FIG>).

In the first configuration the central body <NUM> is positioned in the lower portion 2c of the main body <NUM> and the first portion 4a of the dragging element <NUM> (and the second portion 4b alongside the upper opening 2b) and the actuating means <NUM> are internally positioned in the containment space.

With reference to the accompanying drawings, in the first configuration the loading spring 5c is in a rest position in which it extends between the inner perimeter edge of the upper opening 2b and the central body <NUM>.

In <FIG>, in this first configuration, the button 5a is placed in contact with an inner wall of the main body <NUM>.

In <FIG>, the retaining portion 3e is not engaged in the respective guide <NUM>.

The second configuration of the applicator <NUM> coincides with a loading configuration of the applicator <NUM> (<FIG> and <FIG>) wherein the infusion device <NUM> is inserted in the containment seat 3a to be subsequently applied to the skin "C" of the user.

In the second configuration of the applicator <NUM>, the central body <NUM> is positioned in the upper portion 2d of the main body <NUM>, the first portion 4a of the dragging element <NUM> is positioned outside the main body <NUM> (that is to say, protrudes from the upper opening 2b away from the main body <NUM>) and the actuating means <NUM> are at least partly facing the at least one lateral opening 2e.

With reference to <FIG>, in the second configuration of the applicator <NUM>, the loading spring 5c is compressed between the inner perimeter edge and the central body <NUM> (raised in the upper portion 2d) and the button 5a protrudes from the respective lateral opening 2e in such a way as to lock the central body <NUM> in the upper portion 2d. In the accompanying drawings, both the buttons 5a protrude from the respective lateral openings 2e.

In other words, the elastic element (that is to say, the spring 5b) of each button 5a allows it to abut against the inner wall of the main body <NUM> (when the central body <NUM> is in the lower portion 2c) or push the button 5a outside the lateral openings 2e (when the central body <NUM> is in the upper portion 2d). In the second configuration, the buttons 5a and the respective elastic elements guarantee that a release of the loading spring 5c is prevented by locking the central body <NUM> and thus keeping the loading spring 5c compressed.

The central body <NUM> is movable by pressure by the user in such a way as to move the applicator <NUM> from the first configuration to the second configuration. In other words, once the infusion device <NUM> is inserted into the containment seat 3a, the user can push the central body <NUM> from the lower portion 2c to the upper portion 2d. In other words, by pressing, the central body <NUM> is moved in the upper portion 2d until the buttons 5a release, protruding from the lateral openings 2e. During this pressing movement the buttons 5a are able to slide on the inner wall of the main body <NUM>.

With reference to <FIG> and to the further embodiment, in the second configuration of the applicator <NUM>, the loading spring 5c is compressed between the inner perimeter edge and the central body <NUM> (raised in the upper portion 2d) and the retaining portions 3e, in particular the ends 3e', are engaged in the respective end of the guides <NUM> in such a way as to lock the central body <NUM> in the upper portion 2d. In the accompanying drawings, both the buttons 5a (that is to say, the pressable portions 5e) protrude from the respective lateral openings 2e.

In other words, the elastic element (that is to say, the spring 5b) of each button 5a keeps the button (that is to say, its sliding portion 5d) away from the retaining portions 3e in such a way as not to accidentally release the central body <NUM>.

In the second configuration, the retaining portions 3e guarantee that a release of the loading spring 5c is prevented by locking the central body <NUM> and thus keeping the loading spring 5c compressed.

By pressing, the central body <NUM> is moved into the upper portion 2d until the retaining portions 3e, in particular the hook-shaped ends 3e', release and engage in the ends of the guides <NUM>.

Once the applicator <NUM> has been loaded, the actuating means <NUM> may be operated by the user to move the applicator <NUM> from the second to the first configuration for applying the infusion device <NUM>, housed in the containment seat 3a of the central body <NUM>, to the skin "C" of the user.

With reference to the embodiment illustrated in the accompanying drawings, the buttons 5a can be pressed in such a way as to release the central body <NUM> and move the applicator <NUM> to the first configuration.

With reference to the embodiment of <FIG>, <FIG>, <FIG> and <FIG>, by withdrawing the buttons 5a into the main body <NUM>, the loading spring 5c is free to return to the uncompressed state releasing the central body <NUM> from the upper portion 2d to the lower portion 2c.

With reference, on the other hand, to the further embodiment of <FIG> and <FIG>, the pressing of the buttons 5a (that is to say, of the pressable portion 5e) allows the sliding portion 5d to slide inside the respective guide <NUM> to come into contact with the respective retaining portions 3e (<FIG>), in particular with the ends 3e'. In other words, each sliding portion 5d is moved towards the respective end 3e' of the retaining portion 3e.

This sliding causes the sliding portions 5d to intercept the retaining portions 3e in such a way as to push them away from the guide <NUM> thereby freeing the loading spring 5c (<FIG>). In other words, the pressing of the pressable portion 5e allows the sliding portion 5d to strike the retaining portion 3e engaged in the guide <NUM>, in particular the ends 3e', and disconnect it from the guide <NUM>, allowing the loading spring 5c to return to the uncompressed state releasing the central body <NUM> from the upper portion 2d to the lower portion 2c.

For this reason, both the buttons 5a must be pressed to allow the movement of the central body <NUM> from the upper portion 2d to the lower portion 2c. According to this embodiment, the pressing of a single button 5a would not allow the release of the central body <NUM>. For this reason, the retaining portions 3e (that is to say, the ends 3e') must both be released from the respective guides <NUM> in order to release the central body <NUM>.

For this reason, a user who wishes to apply the infusion device <NUM> on his/her skin "C" should move the loaded applicator <NUM> to his/her skin "C" in such a way that the access opening 2a is obstructed by the skin "C". After pressing the buttons 5a, the release of the loading spring 5c means that the central body <NUM> releases at the required speed so that the infusion device <NUM> can penetrate the skin "C" of the user and remains applied to it.

At this point, when the central body <NUM> is in the first configuration following the application of the infusion device <NUM>, the dragging element <NUM> (that is to say, the second portion 4b) can be pressed by the user in such a way as to further move the central body <NUM> towards the access opening 2a for promoting a homogeneous adhesion of the infusion device <NUM> to the skin C.

In effect, thanks to this further movement, the first portion 4a pushes the central body <NUM> against the skin "C" of the user, guaranteeing that the infusion device <NUM> is able to uniformly adhere to the skin "C".

According to the embodiment in which the through hole 3b is present, the pressing of the second portion 4b allows the elongate body 4d to enter the through hole 3b in such a way as to directly push the infusion device <NUM> against the skin "C" of the patient. Moreover, the pressure may advantageously be used for separating at least the infusion body <NUM> of the infusion device <NUM> (which is the component which must necessarily remain applied to the skin "C" of the patient) from the containment seat 3a.

The invention also relates to an infusion system <NUM> comprising an applicator <NUM> according to one or more of the embodiments described above.

The infusion system <NUM> also comprises an infusion device <NUM> comprising an infusion body <NUM> and a closing element <NUM>.

The infusion body <NUM> comprises a supporting base 11a from which protrudes a cannula-shaped element 11b of a catheter. The supporting base 11a comprises a sticking plaster 11c to allow the infusion device <NUM> to be attached to the body of the patient (that is to say, to the skin "C" of the patient).

Preferably, the sticking plaster 11c comprises a peelable sheet and an adhesive component. In particular, the peelable sheet is removable in such a way as to make accessible the adhesive component intended to adhere to the skin "C" of the user.

The closing element <NUM> is removably connected to the infusion body <NUM> and is provided with a needle 12a suitable for penetrating the skin "C" of the body of the user.

The infusion device <NUM> can be coupled by fitting into the containment seat 3a of the central body <NUM> of the applicator <NUM>.

Preferably, the containment seat 3a is shaped to match the infusion device <NUM>. Even more preferably, the containment seat 3a has a first portion directly facing the access opening 2a having the shape substantially of a spherical cap and a second portion, positioned above the first portion, having a substantially cylindrical shape. The two portions are respectively shaped to match the infusion body <NUM> and the closing element <NUM>.

Following the pressing of the actuating means <NUM>, the central body <NUM> is released in such a way that the needle 12a can penetrate the skin "C" of the user so as to allow insertion of the cannula-shaped element 11b through it. Moreover, during application of the infusion device <NUM>, the sticking plaster 11c comes into contact with the user's skin "C", adhering to it.

During the subsequent pressing of the dragging element <NUM> it is therefore possible to make the adherence of the sticking plaster 11c as uniform as possible, thereby improving the application of the infusion device <NUM> to the skin "C" of the user.

During this pressing of the dragging element <NUM> it is therefore possible to separate the infusion device <NUM> completely (<FIG> and <FIG>) or at least partly (<FIG>) from the containing seat 3a.

The separation of only the infusion body <NUM> or of the infusion body <NUM> and of the closing element <NUM> is performed as a function of the pressure exerted and/or the dimensional proportions between the containment seat 3a and the closing element <NUM>.

In other words, once the dragging element <NUM> is pressed, there is the dual advantage of improving the adherence of the sticking plaster 11c to the skin "C" of the user and separating at least the infusion body <NUM> of the infusion device <NUM> from the containment seat 3a. In this way, once the applicator <NUM> has been moved away from the skin "C" of the user, at least the infusion body <NUM> of the infusion device <NUM> remains applied to the skin "C" of the patient without the risk that it can accidentally separate during this operation. Moreover, the improved adhesion of the sticking plaster 11c makes it possible to guarantee the adhesion of the infusion device <NUM> during the entire period necessary for the treatment to be performed. In other words, the improved adhesion of the sticking plaster 11c guarantees adhesion for extended periods of time of the infusion device <NUM> to the skin "C" of the patient.

The invention also relates to a method for using an infusion system <NUM> as described above.

The method comprises preparing an applicator <NUM> as described above and preparing an infusion device <NUM> as described above.

The method also comprises coupling the infusion device <NUM> by fitting in the containment seat 3a of the central body <NUM> as shown in <FIG> and <FIG>. The method also comprises pressing the central body <NUM>, to which the infusion device <NUM> is coupled, in the containment space defining the second configuration of the applicator <NUM> described above and positioning the applicator <NUM> on the skin "C" of the user, as shown in <FIG> and <FIG>.

The method also comprises actuating the actuating means <NUM> moving the applicator <NUM> to the first configuration in such a way as to apply the infusion device <NUM> to the skin "C" of the patient as shown in <FIG>, <FIG> and <FIG>.

Lastly, the method comprises pressing the dragging element <NUM> in such a way as to press the sticking plaster 11c of the infusion device <NUM> against the skin "C" of the patient and move the applicator <NUM> away from the skin "C" of the user (<FIG> and <FIG>).

Preferably, the step of pressing the dragging element <NUM> comprises the separation at least of the infusion body <NUM> of the infusion device <NUM> from the containing seat 3a of the central body <NUM>. In this way, during separation of the applicator <NUM> from the skin "C" of the user, the closing element <NUM> is dragged together with the applicator <NUM> allowing an immediate execution of the infusion treatment.

Preferably, during the step of pressing the dragging element <NUM> the closing element <NUM> is also separated from the containment seat 3a in such a way that, during the moving away of the applicator <NUM>, the entire infusion device <NUM> remains applied to the skin "C" of the user.

Advantageously, the invention is able to overcome the drawbacks of the prior art.

Advantageously, the invention makes it possible to obtain an optimum adhesion of the infusion device <NUM> preventing the undesired detachment for long periods of adherence.

Advantageously, the invention is easy to use also for a non-expert user who simply by moving the applicator <NUM> close, actuating the actuating means <NUM> and pressing the dragging element <NUM> is able to easily obtain an effective and long-lasting application of the infusion device <NUM>.

Claim 1:
An applicator (<NUM>) for infusion devices (<NUM>) comprising:
- a main body (<NUM>) comprising an access opening (2a) and an upper opening (2b) coaxial with each other and defined respectively in a lower portion (2c) and an upper portion (2d) of the main body (<NUM>);
- a central body (<NUM>) positioned inside said main body (<NUM>) and comprising a seat (3a) for containing said infusion device (<NUM>), said seat facing towards said access opening (2c) for housing said infusion device (<NUM>);
- a dragging element (<NUM>) comprising a first portion (4a), wherein a first end is connected or connectable to said central body (<NUM>) and passes through said upper opening (2d), and a second portion (4b), which can be pressed by a user, located at a second end of said first portion (4a),
- actuating means (<NUM>) connected or connectable to said central body (<NUM>);
said central body (<NUM>) being movable inside said main body (<NUM>) between a first configuration, wherein said central body (<NUM>) is positioned in said lower portion (2c) of the main body (<NUM>) and said first portion (4a) of the dragging element (<NUM>) is positioned inside the main body (<NUM>), and a second configuration wherein said central body (<NUM>) is positioned in said upper portion (2d) of the main body (<NUM>) and said first portion (4a) of the dragging element (<NUM>) is positioned outside the main body (<NUM>);
said central body (<NUM>) being movable by pressure by the user from the first configuration to the second and said actuating means (<NUM>) can be operated by the user for moving said central body (<NUM>) from the second to the first configuration for applying, in use, the infusion device (<NUM>), housed in the containment seat (3a) of the central body (<NUM>), to the skin (C) of a user;
characterised in that said second portion (4b) can be pressed, when said central body (<NUM>) is in said first configuration following the application of said infusion device (<NUM>), in such a way as to further move said central body (<NUM>) towards said access opening (2a) to promote a homogeneous adhesion of the infusion device (<NUM>) to the skin (C).