A body fluid sensing device with a body fluid capture structure and a body fluid measurement sensor positioned in the body fluid capture structure. A capacitance sensor is coupled to the body fluid measurement sensor. The capacitance sensor is used to assist in the positioning of a body part relative to the body fluid capture structure.

An inserting device includes a main casing, a bracket, a first elastic component, an inserting assembly and a second elastic component. The main casing has a position-limiting portion and a first holding portion. The bracket is disposed in the main casing and has a second holding portion. The first elastic component is disposed between the main casing and the bracket, and the first holding portion holds the bracket. The inserting assembly is disposed in the main casing. The second elastic component is disposed between the inserting assembly and the bracket. The position-limiting portion limits the second holding portion, such that the second holding portion holds the inserting assembly on the bracket. When the bracket is released by the first holding portion, the bracket, the second elastic component and the inserting assembly move by the elastic force of the first elastic component, the second holding portion is departed from the position-limiting portion, and the inserting assembly is restored by an elastic force of the second elastic component. Moreover, a blood collection device including the inserting device is also provided.

A finger receptacle having an elongated, flexible sleeve having a length defined between a proximal end and a distal end, the sleeve further comprising a support base, a ceiling and a top surface defining a longitudinal axis X, whereby the sleeve is adapted to bias toward a radially contracted state and when urged into a radially expanded state effects a radial compression action about the length to releasably secure a finger within the receptacle; and at least one angled projection extending from the ceiling and top surface at the distal end of the sleeve, the at least one angled projection angled inwardly from the longitudinal axis X of the ceiling and adapted to contact a nail of the finger releasably secured in the sleeve at the distal end of the receptacle to effect a second compression action. The invention further related to devices of blood capture and blood collection and those that incorporate said receptacle or a finger compression sleeve.

A test strip eject mechanism for a fluid testing device comprising an actuation button and a lever having a distal end movably engaged with the button, the lever configured to rotate about a fulcrum, wherein the lever has a proximal end movably engaged with a sled which slides to transport the test strip, the device configured such that a user's insertion of a test strip onto the sled and in an insertion direction into the device causes the sled to contact the lever arm and the lever arm to contact and move the actuation button in an outward direction of the medical device and into a position where the actuation button can be actuated by the user.

A lancing device for infant with safety rotating and unlocking push-shooting button is provided. The push-shooting button is exposed and occupies two position attitudes. A first attitude is an insurance lock-out state that the push-shooting button is locked to avoid an undesired trigger before actuation, and a second attitude is a state that leaves away from the first one attitude where the push-shooting button is readily loaded to be launched. Under the insurance lock-out state, the push-shooting button is locked and moves only by a rotation. Firstly, the button is rotated and loaded to a to-be-launch state. Then, the button is pressed inwards and an edge lancing mechanism is actuated with a blade projecting from a lancing opening of the shell to cut and retract back into the shell. The whole blood collecting procedure is finished.

A test strip eject mechanism for a fluid testing device comprising an actuation button and a lever having a distal end movably engaged with the button, the lever configured to rotate about a fulcrum, wherein the lever has a proximal end movably engaged with a sled which slides to transport the test strip, the device configured such that a user's insertion of a test strip onto the sled and in an insertion direction into the device causes the sled to contact the lever arm and the lever arm to contact and move the actuation button in an outward direction of the medical device and into a position where the actuation button can be actuated by the user.

Within examples, an apparatus for eliciting a blood sample includes a testing member rotatably mounted on a shaft; and an aperture for positioning a body part of the user relative to the edge of the testing member, wherein an edge of the testing member is shaped such as repeatedly to exert pressure on the skin of a user when the testing member is rotated.

A lancing device with a depth-adjustment mechanism including an adjustably-positioned stop surface, a movable control member operably coupled thereto, and a resiliently deflectable leg that engages the stop surface and a lancet carrier to provide a soft stop for the lancet carrier. The lancet carrier deflects the leg in a forward phase of the lancing stroke, and then the leg contacts the stop surface to stop the forward motion of the lancet carrier at an extended lancing position. The stop surface can be adjustably positioned so that different portions thereof are engaged to stop the lancet carrier at deeper or shallower positions. In example embodiments, the depth-adjustment mechanism includes a rotary dial and an extension arm of the leg, with the dial including a rotary wheel and a rotary shaft extending axially therefrom, the wheel forming the movable adjustment member, and the shaft forming the adjustably positioned stop surface.

A sensor module is disclosed herein. The sensor module includes a main housing defining an analysis zone within the housing. The sensor module also includes a skin piercing member mounted within the main housing. The skin piercing member is movable relative to the main housing between a retracted position and an extended position. The main housing of the sensor module defines a fluid sample flow passage that extends from a sampling end of the main housing to the analysis zone. The fluid sample flow passage includes a funnel structure through which the skin piecing member extends when in the extended position. The fluid sample flow passage also includes capillary flow enhancing slots that extend outwardly from opposite sides of the funnel structure.

A depth-control mechanism for selectively-adjusting a lancing stroke depth of a lancet carrier. The depth-control mechanism includes a positioning tab that is configured to be repositioned along an axis that is orthogonal to the lancing stroke axis of the lancet carrier. The depth-adjustment mechanism also includes a tether that is pivotally coupled between the positioning tab and the lancet carrier. The positioning tab is configured to manipulate a pivot axis of the tether to adjust the lancing stroke length of the lancet carrier.