High reliability analyte detection device
Abstract
A high-reliability analyte detection device, includes: a bottom shell ; a sensor, with the sensor being assembled on the bottom shell, the sensor including a signal output end and a detection end, wherein the signal output end is provided with at least two mutually insulated first electrical connection areas, and the signal output end is curved or bent toward the bottom surface of the bottom shell; a transmitter, with the transmitter and the bottom shell being engaged with each other, and the transmitter being provided with at least two mutually insulated second electrical connection areas which correspond to the first electrical connection areas, wherein the first electrical connection areas are electrically connected to the corresponding second electrical connection areas; and an elastic member, with the signal output end being in contact with the elastic member.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A high reliability analyte detection device, comprising:
a transmitter which is provided with at least one first clamp part and at least two mutually insulated first electrical connection areas; a bottom shell which is provided with at least one second clamp part corresponding to the first clamp part, wherein the first clamp part and the second clamp part are clamped to each other, and the transmitter is assembled on the bottom shell, the bottom shell comprises a fixed part and a forced part, during separating the bottom shell and the transmitter, the fixed part is fixed, and a force is applied to the forced part in one direction, the bottom shell is in a failure mode, the at least one first clamp part and the at least one second clamp part that are clamped to each other are separated from each other, and further separating the bottom shell from the transmitter; a sensor is assembled on the bottom shell, wherein the sensor comprises a signal output end and a detection end, the signal output end is provided with at least two second electrical connection areas corresponding to the first electrical connection areas and mutually insulated. The first electrical connection areas are electrically connected with the second electrical connection area, respectively; an elastic member, wherein the signal output end contacts the elastic member; and a battery, connected to the transmitter, for supplying power to the transmitter.
2 . The high reliability analyte detection device of claim 1 , wherein the first electrical connection areas are metal contacts.
3 . The high reliability analyte detection device of claim 1 , wherein the signal output end is curved or bent towards a bottom surface of the bottom shell.
4 . The high reliability analyte detection device of claim 1 , wherein the signal output end is arranged on a top of the elastic member, and the first electrical connection areas are directly connected with the second electrical connection areas, respectively.
5 . The high reliability analyte detection device of claim 3 , wherein the elastic member comprises at least two conductive areas and at least one insulating area, the insulating area is arranged between the two conductive areas adjacent with each other, the at least two first electrical connection areas are indirectly electrically connected with the second electrical connection areas through the conductive areas, and the first electrical connection areas or the second electrical connection areas are indirectly electrically connected with the conductive areas.
6 . The high reliability analyte detection device of claim 4 , wherein the conductive areas and the insulating area pass through the elastic member in a longitudinal direction, respectively.
7 . The high reliability analyte detection device of claim 4 , wherein the signal output end is embedded in the elastic member or arranged at a bottom of the elastic member.
8 . The high reliability analyte detection device of claim 6 , wherein the first electrical connection areas are set on different parts of the signal output end, and the different parts of the signal output end are independent of each other.
9 . The high reliability analyte detection device of claim 7 , wherein the signal output end is embedded in the elastic member, and heights of embedded positions of different parts of the signal output end in the elastic member are not the same.
10 . The high reliability analyte detection device of claim 7 , wherein each of parts of the signal output end is embedded in the elastic member, or is arranged at the bottom of the elastic member, or is arranged at the top of the elastic member.
11 . The high reliability analyte detection device of claim 1 , wherein a number of the first electrical connection areas and a number of the second electrical connection areas are three, respectively.
12 . The high reliability analyte detection device of claim 1 , wherein a part of the bottom shell that is equipped with the transmitter is the forced part.
13 . The high reliability analyte detection device of claim 1 , wherein a side of the bottom shell is provided with a convex part which is outward, and the convex part is the forced part.
14 . The high reliability analyte detection device of claim 1 , wherein the battery is arranged in the bottom shell, and at least one connection hole is arranged in the bottom shell, the transmitter is electrically connected with the two poles of the battery through the connection hole, and a battery part is the forced part.
15 . The reliability analyte detection device of claim 14 , wherein a sealing ring is arranged around the connection hole to seal, when the force is applied to the forced part, the sealing ring provides elastic force to promote separation of the bottom shell and the transmitter.
16 . The high reliability analyte detection device of claim 1 , wherein the failure mode of the bottom shell comprises one or more of a break of a bottom plate of the bottom shell, a break of the bottom shell, a break of the second clamp part, and a deformation of the bottom shell.Cited by (0)
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