It is well known that individuals with diabetes may monitor their blood glucose levels several times per day. This is typically accomplished by piercing the skin with a lancet, commonly in the area of a finger, and then placing a blood droplet from the piercing on a test strip which is then placed in a blood glucose monitor to establish a reading.
Automatic lancing devices have become the norm. Heretofore, such devices have been cumbersome and not efficient. An ergonomically better and functionally easier device would be welcome.
Disclosed herein is an efficient and easy-to-use lancet device. In accordance with one aspect of the disclosure, the lancet device comprises a base, a needle having a tip and having a position relative to the base, and a domed surface having an aperture. The domed surface may be arranged in a first configuration relative to the base so as to create a cavity in which at least a portion of the needle resides. In addition, when a sufficient force is applied to the domed surface, the domed surface transitions from the first configuration to a second configuration in which the tip of the needle protrudes from the aperture of the domed surface.
In accordance with another aspect of the lancet device, the position of the needle relative to the base does not change during the transition of the domed surface from the first configuration to the second configuration.
In accordance with yet another aspect of the lancet device, the domed surface comprises a flexible material, and the transition from the first configuration to the second configuration includes bending the domed surface. In addition, when the force ceases to be applied, the domed surface may automatically return to the first configuration.
In accordance with still another aspect, the position of the needle relative to the base may be altered prior to the application of force to the domed surface.
In accordance with another aspect, the domed surface comprises a middle portion and an outer portion, wherein the outer portion is attached to the base, and wherein the force is applied to the middle potion of the domed surface. In addition, a user's finger may apply the force to the domed surface, and the protrusion of the tip through the aperture of the domed surface may pierce the user's finger so as to draw blood.
In accordance with another aspect, the lancet device may also comprise a main body, and endcap extending from said main body. The base may be placed within the endcap, so that the domed surface is exposed.
In accordance with yet another aspect, a lancet device may include a base, a needle having a tip, a cartridge in which the needle resides, and a domed surface having an aperture. The cartridge may be configured so as to allow the needle to move along the axis of the needle relative to the cartridge. The domed surface may be connected to the cartridge and being arranged in a first configuration relative to the base so as to create a cavity in which at least a portion of the cartridge resides. When a sufficient force is applied to the domed surface, the domed surface may transition from the first configuration to a second configuration. When the force ceases to be applied, the domed surface returns to the first configuration, and upon the domed surface returning to the first configuration, the needle may move relative to the cartridge so as to allow the tip of the needle protrude from the aperture of the domed surface.
In accordance with still another aspect, the lancet device may include a stand that is connected to the needle and is configured to move along the axis of the needle relative to the cartridge. In addition, the lancet may include a spring, the spring being arranged within the cartridge so as to cause needle to return to a position in which the tip of the needle is not protruding through the aperture of the domed surface. The domed surface may be made of a flexible material, and the transition from the first configuration to the second configuration may include bending the domed surface.
In accordance with another aspect, the lancet device may include a base, a needle having a tip, a button having an aperture, and a flexible structure having a middle portion and an outer portion. The button may be arranged within the base so that it may move parallel to the axis of the needle, the button having a top surface that is exposed from the base. The flexible structure may be arranged relative to the button in a first configuration so as to create a cavity in which the needle resides. In addition, when a sufficient force is applied to the top surface of the button, the button may apply a force on the outer portion of the flexible structure, causing the flexible structure to transition from the first configuration to a second configuration in which the tip of the needle protrudes from the aperture of the button. The lancet device may also include a spring, the spring being arranged between the flexible surface and the button so that it will be compressed when flexible structure is in the second configuration. In addition, the transition from the first configuration to the second configuration may include bending the flexible structure.
In accordance with another aspect, a user's finger applies the force to the top surface of the button, and the protrusion of the tip through the aperture of the button pierces the user's finger so as to draw blood.
The present invention will be readily understood by one skilled in the art by reviewing the following detailed description in conjunction with the accompanying drawings, wherein like reference numerals designate like structural elements, and in which:
The following description of the exemplary embodiments of the invention along with accompanying figures is presented by way of illustration and to facilitate an understanding of the disclosed system. The description is neither intended to be exhaustive nor meant to limit the scope of the invention in any manner. Accordingly, many modifications and variations are possible in the light of the disclosure.
Furthermore, the features and advantages described herein are not all-inclusive and, in particular, many additional features and advantages will be apparent to one of ordinary skill in the art in view of the drawings, specification, and claims. As will also be appreciated, the invention is capable of other and different embodiments, and its several details are capable of modifications in various respects without departing from the spirit and scope of the invention.
Referring to
The lancet device 100 may also include a depression 122 and associated tab 124 that are incorporated with the endcap 110, and more specifically the endcap shoulders 112. The depression 122 and tab 124 may be utilized to assist with removal of the endcap from the main body 102 of the lancet device by being suited for tactical and functional recognition by human fingers.
Moving to
Lancet assembly 400 may be configured so that snap lid 402 creates a cavity 420 in which needle 410 resides. However, a user may depress snap lid 402 toward needle 410, thereby exposing tip 412 of needle 410 through aperture 404. For example, a user may press snap lid 402 using a finger (not shown) so that snap lid 402 goes from a non-depressed position shown in
In accordance with one embodiment, snap lid 402 is designed to quickly move from a non-depressed position to a depressed position, allowing for a fast and clean piercing of the user's finger. In accordance with this embodiment, snap lid 402 may be in a stable state while residing in the non-depressed position. In particular, snap lid 402 may be designed so that it will not move, or will only move slightly, when a force is applied by the user, provided that the force is below a particular threshold. Once the user provides a force at or above the particular threshold value, snap lid 402 will quickly move from the non-depressed position shown in
Snap lid 402 may consist of any material that would allow it to move, given a predetermined amount of force, between the depressed and non-depressed positions under the desired threshold force, including any number of metals or plastics. While
As shown in
Both button 920 and edges 932 of snap dome 930 are able to move with respect to base 940 in the direction parallel to the axis of needle 410. For example, a user may press down on button 920 so as to cause button 920 to move further into cavity 926, as shown in
Snap dome 930 may be designed so that the transition from the stable state of
Once the user ceases to apply pressure on button 920, snap dome 930 will return to the stable state, causing needle 410 to retract back into cavity 926. As shown in
Although, this disclosure uses examples of lancing devices, it will be recognized that the features and benefits of the overall construction described herein are applicable to other articles. Also, it would be realized by those skilled in the art that various modifications, alterations and adaptations can be made to the disclosed embodiments without departing from the spirit and scope of the disclosed features. Numerous characteristics and advantages have been set forth in the foregoing description, together with details of structures and functions of the present invention. The foregoing description and disclosure, however, is illustrative only, and change may be made in arrangement and details, within the principle of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.
A lancet device comprising:
The lancet device of embodiment A, wherein the position of the needle relative to the base does not change during the transition of the domed surface from the first configuration to the second configuration.
The lancet device of embodiment A, wherein the domed surface comprises a flexible material; and
The lancet device of embodiment A, wherein when the force ceases to be applied, the domed surface automatically returns to the first configuration.
The lancet device of embodiment A, wherein the position of the needle relative to the base may be altered prior to the application of force to the domed surface.
The lancet device of embodiment A, wherein the domed surface comprises a middle portion and an outer portion, wherein the outer portion is attached to the base, and wherein the force is applied to the middle potion of the domed surface.
The lancet device of embodiment A, wherein a user's finger applies the force to the domed surface, and wherein the protrusion of the tip through the aperture of the domed surface pierces the user's finger so as to draw blood.
The lancet device of embodiment A, further comprising:
A lancet device comprising:
The lancet device of embodiment I, further comprising a stand that is connected to the needle and is configured to move along the axis of the needle relative to the cartridge.
The lancet device of embodiment J, further comprising a spring, the spring being arranged within the cartridge so as to cause the needle to return to a position in which the tip of the needle is not protruding through the aperture of the domed surface.
The lancet device of embodiment I, wherein the domed surface comprises a flexible material; and
The lancet device of embodiment I, wherein a user's finger applies the force to the domed surface, and wherein the protrusion of the tip through the aperture of the domed surface pierces the user's finger so as to draw blood.
The lancet device of embodiment I, further comprising:
A lancet device comprising:
The lancet device of embodiment O, further comprising a spring, the spring being arranged between the flexible surface and the button so that it will be compressed when flexible structure is in the second configuration.
The lancet device of embodiment O, wherein the transition from the first configuration to the second configuration includes bending the flexible structure.
The lancet device of embodiment O, wherein a user's finger applies the force to the top surface of the button, and wherein the protrusion of the tip through the aperture of the button pierces the user's finger so as to draw blood.
The lancet device of embodiment O, further comprising:
The present application claims the benefit of the filing date of U.S. Provisional Patent Application No. 61/777,628 filed Mar. 12, 2013, the disclosure of which is hereby incorporated by reference.
Number | Date | Country | |
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61777628 | Mar 2013 | US |