WO2022012187A1 - 高可靠性分析物检测器件 - Google Patents
高可靠性分析物检测器件 Download PDFInfo
- Publication number
- WO2022012187A1 WO2022012187A1 PCT/CN2021/097173 CN2021097173W WO2022012187A1 WO 2022012187 A1 WO2022012187 A1 WO 2022012187A1 CN 2021097173 W CN2021097173 W CN 2021097173W WO 2022012187 A1 WO2022012187 A1 WO 2022012187A1
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- WIPO (PCT)
- Prior art keywords
- electrical connection
- elastic member
- bottom case
- detection device
- signal output
- Prior art date
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Definitions
- the present invention mainly relates to the field of medical equipment, in particular to a high-reliability analyte detection device.
- the pancreas in a normal human body can automatically monitor the glucose level in the human blood and secrete the required insulin/glucagon automatically.
- the pancreas does not function properly and cannot secrete insulin normally. Therefore, diabetes is a metabolic disease caused by abnormal pancreatic function in the human body, and diabetes is a lifelong disease.
- medical technology cannot cure diabetes, and the occurrence and development of diabetes and its complications can only be controlled by stabilizing blood sugar.
- CGM Continuous Glucose Monitoring
- the structure of the current detection device is complex and not compact, and the overall volume of the detection device is relatively large, which affects the user's stretching, exercise or dressing and other actions.
- the detection device loses the effective electrical connection and interrupts the detection, which leads to the loss of detection data and brings security risks to the user.
- the embodiment of the present invention discloses a high-reliability analyte detection device.
- the signal output end is in contact with the same elastic member, which improves the reliability of the internal electrical connection of the detection device and reduces the number of structures inside the device.
- the transmitter can be disassembled and replaced. It will not damage conductive parts, avoid data loss due to loss of effective electrical connection, and enhance user experience.
- the invention discloses a high-reliability analyte detection device, comprising: a transmitter, wherein the transmitter is provided with at least one first engaging portion and at least two mutually insulated first electrical connection regions; a bottom case is provided on the bottom case There is a second engaging portion corresponding to the first engaging portion, and the first engaging portion and the second engaging portion are engaged with each other, the transmitter is assembled on the bottom case, and the bottom case includes a fixing portion and a force-applying portion.
- the fixing part is fixed and the force is applied to the force application part in one direction, and the bottom case fails, and at least a pair of the first engaging part and the second engaging part are engaged with each other.
- the sensor Separate from each other, and then separate the bottom case and the transmitter; the sensor, the sensor is assembled on the bottom case, the sensor includes a signal output end and a detection end, and the signal output end is provided with at least two second electrical connection areas corresponding to and insulated from each other. an electrical connection area, the first electrical connection area and the corresponding second electrical connection area are electrically connected; an elastic piece, the signal output end is in contact with the elastic piece; and a battery, connected with the transmitter, for providing power to the transmitter .
- the first electrical connection area is a metal contact.
- the signal output end is bent or bent toward the bottom surface of the bottom case.
- the signal output end is disposed on the top of the elastic member, and the first electrical connection area is directly electrically connected to the corresponding second electrical connection area.
- the elastic member includes at least two conductive regions and at least one insulating region, an insulating region is provided between two adjacent conductive regions, and the at least two first electrical connection regions are respectively connected to corresponding ones through different conductive regions.
- the second electrical connection areas are indirectly electrically connected, and different first electrical connection areas or different second electrical connection areas are respectively indirectly electrically connected to different conductive areas.
- the conductive region and the insulating region respectively pass through the elastic member in the longitudinal direction.
- the signal output end is embedded in the elastic member or disposed at the bottom of the elastic member.
- different first electrical connection areas are disposed on different parts of the signal output end, and the different parts of the signal output end are independent from each other and do not interfere with each other.
- the signal output end is embedded in the elastic member, and the heights of the embedded positions of the signal output end of different parts in the elastic member are not the same.
- the signal output end of each part is embedded inside the elastic member, or disposed at the bottom of the elastic member, or disposed on the top of the elastic member.
- the number of the first electrical connection area and the number of the second electrical connection area is three, respectively.
- the part of the bottom case where the transmitter is assembled is a force applying part.
- a side edge of the bottom case is provided with an outward convex portion, and the convex portion is the force applying portion.
- the battery is arranged in the bottom case, and the bottom case is provided with at least one connection hole, through which the transmitter is electrically connected to the two poles of the battery, and the battery part is the force applying part.
- a sealing ring is provided around the connection hole to seal the electrical connection position, and when a force is applied to the force applying part, the sealing ring provides an elastic force to promote the separation of the bottom case and the launcher.
- the senor is assembled on the bottom case, the sensor includes a signal output end and a detection end, the signal output end is bent or bent toward the bottom surface of the bottom case, and the signal output end is in contact with the elastic member. get in touch with.
- the same elastic member plays a role of conducting electricity, carrying or buffering, which improves the reliability of the electrical connection and reduces the number of components at the same time.
- the transmitter can be disassembled by bending the force-applying part, which is more convenient for users to disassemble and replace the transmitter, and the electrical connection area is not in the bending area, which will not cause damage to conductive parts, avoid loss of detection data, and improve analysis.
- the reliability of the object detection device enhances the user experience.
- the elastic member includes at least two conductive regions and at least one insulating region, an insulating region is provided between two adjacent conductive regions, and the at least two first electrical connection regions are respectively connected with corresponding second electrical regions through different conductive regions.
- the connection areas are indirectly electrically connected, and different first electrical connection areas or different second electrical connection areas are respectively indirectly electrically connected to different conductive areas.
- An elastic piece plays the role of conduction and insulation at the same time, which not only reduces the number of internal structures of the detection device, but also acts as a buffer to enhance the stability of the electrical connection between the transmitter and the sensor.
- first electrical connection areas are arranged on different parts of the signal output end, and the different parts of the signal output end are independent of each other and do not interfere with each other.
- the thickness of each of the first electrical connection regions will vary.
- the first electrical connection area which is independent of each other and does not interfere with each other can reduce or eliminate the influence of poor contact caused by the above thickness difference, and improve the elasticity of the elastic member, the first electrical connection area, the second electrical connection area. The stability of the electrical connection between the connection areas.
- FIG. 1 is a schematic three-dimensional structure diagram of a bottom case according to an embodiment of the present invention.
- FIG. 2 is a schematic diagram of the assembly of a sensor and a bottom case according to an embodiment of the present invention
- FIG. 3 is a schematic diagram of a three-dimensional structure of a transmitter according to an embodiment of the present invention.
- FIG. 4a-4b are schematic structural diagrams of an elastic member, a first electrical connection area, and a second electrical connection area according to an embodiment of the present invention, FIG. 4a is a top view, and FIG. 4b is a side view of the structure of FIG. 4a;
- FIG. 4c is a schematic top-view structural diagram of an elastic member and a first electrical connection area according to another embodiment of the present invention.
- 4d-4e are schematic top-view structural diagrams of the elastic member, the first electrical connection area, and the second electrical connection area according to different embodiments of the present invention.
- FIG. 5 is a schematic structural diagram of an elastic member, a first electrical connection area, and a second electrical connection area according to another embodiment of the present invention
- 6a-6b are schematic structural diagrams of the second electrical connection area and the electrical connection position of the elastic member according to different embodiments of the present invention.
- FIG. 7a-7b are schematic structural diagrams of the elastic members being electrically connected to the first electrical connection area and the second electrical connection area, respectively, according to another embodiment of the present invention, and FIG. 7b is obtained along the section line AA' in FIG. 7a . sectional view;
- FIG. 8a-8b are schematic structural diagrams of the elastic members being electrically connected to the first electrical connection area and the second electrical connection area, respectively, according to another embodiment of the present invention, and FIG. 8b is obtained along the section line BB' in FIG. 8a . sectional view;
- 9a is a schematic three-dimensional structural diagram of a second electrical connection area according to still another embodiment of the present invention.
- FIG. 9b is a schematic three-dimensional structural diagram of the elastic member and the signal output end matched with the second electrical connection area in FIG. 9a;
- FIG. 10 is a schematic structural diagram of a signal output end disposed on the top of an elastic member according to yet another embodiment of the present invention.
- FIG. 11 is a schematic structural diagram of different parts of the signal output terminals disposed at different positions of the elastic member according to another embodiment of the present invention.
- the detection data of the body fluid parameter detection device in the prior art is easily lost, and the user experience is poor, which brings inconvenience to the patient's life.
- the present invention provides a high-reliability analyte detection device.
- the signal output end is in contact with the same elastic member, and the transmitter can be disassembled by bending the force-applying part, which does not affect the conductive parts and avoids the damage of the conductive parts. damage, which improves the reliability of the electrical connection of the detection device, avoids data loss, and enhances user experience.
- FIG. 1 is a schematic three-dimensional structural diagram of a bottom case 10 according to an embodiment of the present invention.
- FIG. 2 is a schematic diagram of the assembly of the sensor 113 and the bottom case 10 according to the embodiment of the present invention. 1 and 2, the detailed description will be given.
- the bottom case 10 is used for assembling the sensor 113 and the transmitter 12 .
- the bottom surface of the bottom case 10 is provided with an assembly hole 101 for assisting the installation of the sensor 113
- a first engaging structure 102 is disposed around the assembly hole 101 to assist in the installation of the sensor 113 on the bottom case 10 .
- the side wall of the bottom case 10 is further provided with a second engaging portion 104 for fixing the transmitter 12 .
- the transmitter 12 is provided with a second engaging portion 104 that can engage with the second engaging portion 104 .
- An engaging portion 123 is provided.
- the number of the second engaging portions 104 is two, and the two second engaging portions 104 are correspondingly disposed on the side walls of the bottom case 10 .
- the number of the second engaging portions 104 is four, and the four second engaging portions 104 are correspondingly disposed on opposite side walls of the bottom case 10 , two on each side.
- the number of the second engaging portions 104 is six, and the six second engaging portions 104 are correspondingly disposed on the side walls of the bottom case 10 , two on each side.
- the bottom case can be made invalid by bending the force-applying portion, and the failure modes of the bottom case include one of the bottom plate of the bottom case 10 being broken, the bottom case being broken, the second engaging portion being broken, and the bottom case being deformed. Or multiple combinations, in a word, after the bottom case fails, the first engaging portion 123 and the second engaging portion 104 are disconnected from the engaging connection, and the transmitter 12 can be detached from the bottom case 10.
- the electrical connection area 122 is not located in the force-applying part, and the user will not cause damage to the electrical connection components when disassembling the transmitter 12. After replacing the bottom case 10, the transmitter 12 is installed on the new bottom case without affecting the second connection area 122. It is electrically connected to the first electrical connection area 116 of the new bottom case to ensure the stability of the electrical connection.
- the fixing portion and the force applying portion are relative concepts. According to the structural design of the bottom case 10 and the transmitter 12, the positions of the fixing portion and the force applying portion can be selected differently.
- the connecting line 1 of the two second engaging portions 104 divides the bottom case 10 into an X side and a Y side.
- the Y side is provided with a urging portion
- the X side is provided with a fixing portion.
- the process of separating the bottom case 10 and the transmitter 12 is as follows: use a finger to fix the fixing part on the X side, and use another finger to apply a force F to the Y side force part in one direction, so that the first The two engaging portions 104 fail, and further separate the second engaging portion 104 and the first engaging portion 123 to separate the transmitter 12 from the bottom case 10 .
- the force-applying portion is the protrusion 103 outward from the side of the bottom case, and the shape, size and number of the protrusion 103 are not limited. And it saves space and ensures a small and compact bottom shell structure.
- the bottom case 10 may also have other shapes, as long as the conditions for installing the transmitter 12 and the sensor 113 on the bottom case 10 can be met, which is not specifically limited here.
- the bottom case 10 includes a sensor base 111 .
- the sensor 113 is mounted on the bottom case 10 through the sensor base 111 .
- a second engaging structure 112 is disposed around the sensor base 111 , and the second engaging structure 112 will engage with the first engaging structure 102 to install the sensor base 111 in the assembly hole 101 , and then assemble the sensor 113 on the bottom case 10 .
- the auxiliary mounting structure of the sensor 113 is removed, and the sensor 113 is not carried by the sensor base 111 or other components, but is separately installed on the bottom on the shell 10.
- the senor 113 may also be assembled on the bottom case 10 in other assembly manners, which are not specifically limited here.
- the sensor base 111 is further provided with a sealing ring 130 and a groove 131 in which the sealing ring 130 is placed.
- the senor 113 includes a signal output terminal 113a and a detection terminal 113b.
- the signal output terminal 113 a needs to be electrically connected to the second electrical connection area 122 of the transmitter 12 to transmit the detection signal to the transmitter 12 .
- the detection end 113b is used for piercing the subcutaneous tissue of the human body to detect the parameter information of the body fluid analyte.
- the signal output terminal 113a is provided with a first electrical connection area 116 insulated from each other.
- the sensor 113 is also provided with electrodes and/or electrode leads (not shown here and below) for detecting analyte parameter information.
- the detection signal of the electrode needs to be derived through the first electrical connection area 116 .
- the embodiment of the present invention does not limit the arrangement of the first electrical connection area 116 on the signal output end 113a.
- the first electrical connection area 116 may be disposed on the surface of the signal output end 113a, or embedded in the signal output end 113a.
- the senor 113 is provided with at least two detection electrodes, namely at least a working electrode and a counter electrode. Therefore, in the implementation of the present invention, at least two first electrical connection regions 116 are disposed on the surface of the signal output end 113a to be electrically connected to different electrodes. Specifically, in the embodiment of the present invention, the sensor 113 is a three-electrode system. Therefore, the number of the first electrical connection regions 116 is three.
- the signal output end 113 a is bent or bent toward the bottom surface of the bottom case 10 .
- the signal output end 113 a is attached to the surface of the sensor base 111 or embedded in the sensor base 111 .
- Such a design reduces the height of the sensor 113 protruding from the bottom case 10 and reduces the thickness of the detection device.
- the senor 113 may also be in other shapes or forms (eg, not bent), which is not specifically limited here.
- FIG. 3 is a schematic three-dimensional structural diagram of the transmitter 12 according to an embodiment of the present invention.
- the transmitter 12 is provided with second electrical connection regions 122 which are insulated from each other.
- the second electrical connection area 122 is used for electrical connection with the first electrical connection area 116 to receive electrical signals from the sensor 113 . Therefore, the second electrical connection area 122 corresponds to the first electrical connection area 116 .
- corresponding means that the number of the two is equal, and the positions of the two are basically corresponding.
- the number of the second electrical connection regions 122 is three, so as to be compatible with the three-electrode system of the sensor 113 .
- the second electrical connection area 122 is exposed and protrudes from the transmitter housing 121 .
- the second electrical connection region 122 is a metal contact. The smaller metal contacts make the internal structure of the detection device more compact, and the volume of the detection device will be further reduced.
- a battery (not shown in the figure) is provided in the transmitter housing 121 , and in other embodiments, the battery may also be provided in the bottom case 10 for providing power to the transmitter 12 .
- the embodiments of the present invention do not limit the shape and position of the second electrical connection region 122 .
- the second electrical connection area 122 is not protruded from the surface of the transmitter housing 121 , but is flush with the surface of the transmitter housing 121 .
- the second electrical connection area 122 is located inside the transmitter housing 121, which will be described in detail below.
- the cross section of the second electrical connection area is rectangular or circular.
- the conductive portion of the second electrical connection area is disposed on the surface of the connector, or the second electrical connection area 122 itself is the connector. The connector can be inserted into the same elastic member, which will be described in detail below.
- FIG. 4a is a schematic top-view structural diagram of an elastic member, a first electrical connection area, and a second electrical connection area according to an embodiment of the present invention.
- Fig. 4b is a side view of the elastic member of Fig. 4a.
- FIG. 4c is a schematic top view of the structure of the elastic member and the first electrical connection area according to another embodiment of the present invention.
- 4d-4e are schematic top-view structural diagrams of the elastic member, the first electrical connection area, and the second electrical connection area according to different embodiments of the present invention.
- the thin dashed line represents the outline of the portion of the first electrical connection area covered by the elastic member
- the thick dashed line represents the outline of the portion of the signal output end covered by the elastic member.
- the detection device in the embodiment of the present invention includes an elastic member 114 .
- the elastic member 114 is in contact with the signal output end 113a.
- the provision of only one elastic member 114 reduces the number of internal structures of the detection device.
- the elastic material is deformed after being squeezed, thereby playing a locking role. Therefore, the elastic members 114 can be connected to each other more closely as a conductive structure or as an auxiliary structure of an electrical connection position, thereby improving the reliability of the electrical connection.
- the signal output end 113 a is disposed at the bottom of the elastic member 114 , and the first electrical connection area 116 is electrically connected to the corresponding second electrical connection area 122 indirectly.
- the bottom of the elastic member 114 refers to the part of the elastic member 114 close to the skin.
- the elastic member 114 includes at least two conductive regions 114a and at least one insulating region 114b.
- the conductive region 114a and the insulating region 114b play the roles of electrical conduction and electrical insulation, respectively.
- the conductive region 114 a and the insulating region 114 b cannot be separated from each other, that is, the conductive region 114 a and the insulating region 114 b respectively belong to an integral part of the elastic member 114 .
- An insulating region 114b is disposed between adjacent conductive regions 114a. Different first electrical connection areas 116 or different second electrical connection areas 122 are respectively electrically connected to different conductive areas 114a, so that any two first electrical connection areas 116 or any two second electrical connection areas 122 are electrically connected to each other. insulation.
- the conductive area 114a and the insulating area 114b pass through the elastic member 114 in the longitudinal direction, as shown in FIG. 4b.
- the longitudinal direction refers to the direction from the first electrical connection area 116 to the corresponding second electrical connection area 122 , or the direction of current flow between the first electrical connection area 116 and the second electrical connection area 122 .
- the elastic member 114 electrically connects the first electrical connection regions 116 and the corresponding second electrical connection regions 122 , and also electrically insulates the different first electrical connection regions 116 or the different second electrical connection regions 122 .
- An elastic member 114 plays the role of electrical conduction and electrical insulation at the same time, the complexity of the internal structure of the detection device is reduced, the internal structure is more compact, and the electrical connection reliability of the detection device is improved.
- the conductive region 114a or the insulating region 114b may also have a certain inclination, or be arranged inside the elastic member 114 in other directions or manners, which are not specifically limited here, as long as It suffices to satisfy the above-mentioned conditions of electrical conduction and electrical insulation.
- the elastic member 114 is a rectangular parallelepiped structure.
- the conductive region 114a and the insulating region 114b are spaced apart and penetrate through the elastic member 114 respectively.
- different conductive regions 114a are arranged in the same insulating region 114b, that is, surrounded by the same insulating region 114b, as shown in FIG. 4d.
- the top view of the elastic member 114 may be a circular ring, as shown in FIG. 4e. In yet another embodiment of the present invention, the top view of the elastic member 114 may also be circular.
- the elastic member 114 may also have other shapes, which are not specifically limited here, as long as the conditions for realizing the above-mentioned functions of the elastic member 114 can be met.
- the elastic member 114 is electrically connected to the first electrical connection area 116 and the second electrical connection area 122 respectively, there is an interval between any two first electrical connection areas 116 connected to the elastic member 114 .
- the insulating region 114b spaced between any two first electrical connection regions 116 includes a part of an insulating region 114b (as shown in FIG. 4a and between 116a and 116b in FIG. 4b ), or One insulating region 114b, or more than one insulating region 114b (between 116c and 116b of FIGS. 4a and 4b).
- the insulating region 114b spaced between any two second electrical connection regions 122 connected to the elastic member 114 includes a part of one insulating region 114b, one insulating region 114b, or more than one insulating region 114b.
- the first electrical connection area and the corresponding second electrical connection area (such as between 116a and 122a, between 116b and 122b, or between 116c and 122c) share part of the conductive area 114a, so as to realize the conductance of the two Pass.
- the conductive regions of the common portion include a portion of a conductive region 114a (between 116c and 122c in Figures 4a and 4b), or a conductive region 114a, or more than one conductive region 114a.
- one insulating area or conductive area one insulating area or conductive area, and more than one insulating area or conductive area are only the first electrical connection area or the second electrical connection area.
- the electrical connection area spans a one-dimensional direction (eg, the arrangement direction of the conductive area).
- a part of an insulating area or a conductive area, an insulating area or a conductive area, and more than one insulating area or a conductive area may also indicate that the first electrical connection area or the second electrical connection area is in the
- the two-dimensional (in area) coverage of insulating or conducting regions is shown in Figure 4c. Taking the first electrical connection area as an example, the dotted line in FIG. 4c represents a partial outline of the first electrical connection area.
- the first electrical connection region 116 can cover a part of one insulating or conducting region, or one insulating or conducting region, or more than one insulating or conducting region.
- the material of the elastic member 114 includes elastic plastic, elastic rubber, and the like. Using the elastic member 114 can achieve better electrical contact and at the same time play a buffering role.
- the elastic member 114 is a conductive rubber strip. A conductive rubber strip not only plays the role of conduction and insulation at the same time, but also plays the role of buffering.
- the elastic member 114 only needs to include two conductive regions 114a and one insulating region 114b disposed between the two conductive regions 114a. That is, two pairs of different first electrical connection regions and second electrical connection regions are respectively electrically connected through different conductive regions 114a to achieve electrical conduction. Meanwhile, the two first electrical connection areas or the two second electrical connection areas are separated by an insulating area to achieve electrical insulation.
- Sensors of other embodiments of the present invention may also include more electrodes. Therefore, the elastic member 114 includes more conductive areas and insulating areas spaced apart from each other, and the manner of electrical connection will be more flexible, as shown in FIG. 5 .
- the senor includes at least three electrodes, that is, the signal output end 113a is provided with at least three first electrical connection areas, wherein at least two of the first electrical connection areas pass through different conductive
- the area 114a is electrically connected to the corresponding second electrical connection area, and the connection method and principle are the same as the above.
- the embodiments of the present invention do not limit their connection methods or connection principles.
- the senor is a 3-electrode system, in which only the working electrode and the counter electrode are respectively electrically connected to the second electrical connection area by the corresponding first electrical connection area through the elastic member, and the reference electrode is electrically connected through other electrical connection areas. way to be electrically connected to the transmitter.
- 6a-6b are schematic structural diagrams of the electrical connection positions of the second electrical connection region 122 and the elastic member 114 according to different embodiments of the present invention.
- the second electrical connection area 122 is a protruding spherical cap type metal contact.
- the elastic member 114 is provided with a concave portion (not shown) at the position where the elastic member 114 is connected with the protruding metal contact, so as to make the connection more tightly.
- the connection between the convex part and the concave part also plays a role in fixing the position of the elastic member 114, that is, no matter what external force the detection device is subjected to, the position of the elastic member 114 is always fixed without displacement, ensuring that the elastic member 114 performs normal operation. Conductive and insulating work.
- the elastic member 114 may not be designed with a concave portion. After being squeezed by the protruding metal contact, a concave portion matching with the metal contact will automatically appear on the elastic member 114 to ensure the function of electrical connection or electrical insulation.
- the second electrical connection area 122 is disposed inside the transmitter 12 .
- a convex portion (not shown) is correspondingly provided on the elastic member 114 , and the convex portion can enter the inside of the transmitter 12 and be electrically connected with the corresponding second electrical connection area 122 .
- FIGS. 7a-7b are schematic structural diagrams of the elastic member 214 being electrically connected to the first electrical connection area and the second electrical connection area, respectively, according to another embodiment of the present invention.
- Figure 7a is a top view.
- Figure 7b is a cross-sectional view taken along section line A-A' in Figure 7a.
- the three second electrical connection regions 222a, 222b, and 222c in the embodiment of the present invention are indirectly electrically connected to the three first electrical connection regions 216a, 216b, and 216c, respectively.
- the conductive regions 214 a and the insulating regions 214 b in the elastic member 214 please refer to the foregoing description.
- the signal output end 213 a is embedded inside the elastic member 214 . Therefore, the three first electrical connection regions 216 a , 216 b and 216 c are all embedded in the elastic member 214 . In order to fix the position of the sensor, the signal output end 213a and the detection end 231b are carried by the sensor base 211 .
- FIGS. 8a-8b are schematic structural diagrams showing that the elastic member is electrically connected to the first electrical connection area and the second electrical connection area, respectively, according to another embodiment of the present invention.
- Figure 8a is a top view.
- Figure 8b is a cross-sectional view taken along section line B-B' in Figure 8a.
- different first electrical connection areas are disposed on different parts of the signal output terminal 313a, and the different parts of the signal output terminal 313a are independent from each other and do not interfere with each other.
- the three first electrical connection regions are embedded in the conductive region 314a and/or the insulating region 314b of the elastic member. As shown in FIG. 8b, in the embodiment of the present invention, the heights of the embedded positions of the three first electrical connection regions in the elastic member are not completely equal.
- the thickness of each of the first electrical connection regions will vary.
- the first electrical connection area which is independent of each other and does not interfere with each other can weaken or eliminate the influence of poor contact caused by the above thickness difference, and improve the reliability of the electrical connection between the three.
- first electrical connection areas may be embedded in the elastic member, the other first electrical connection area is disposed at the bottom of the elastic member, or three first electrical connection areas
- the heights of the regions embedded in the elastic member are equal, and are not specifically limited here.
- FIG. 9a is a schematic three-dimensional structural diagram of the second electrical connection region 422 according to still another embodiment of the present invention.
- FIG. 9b is a schematic three-dimensional structural diagram of the elastic member matched with the second electrical connection area 422 in FIG. 9a and the signal output end 413a.
- the three second electrical connection areas 422 a , 422 b and 422 c are plugs and protrude from the transmitter housing 412 .
- the types of connectors are as described above.
- Three insertion holes 401 are provided in the elastic member to match with the three second electrical connection areas.
- the three second electrical connection areas can be respectively inserted into the corresponding jacks 401 .
- the length direction of the insertion hole 401 is perpendicular to the arrangement direction of the conductive regions 414a or the insulating regions 414b. In other embodiments of the present invention, the two directions can be arbitrarily designed according to requirements. In one embodiment of the present invention, the length direction of the sockets is parallel to the arrangement direction of the conductive regions. For the principle and method of its electrical connection, please refer to the above.
- FIG. 10 is a schematic structural diagram of a signal output end disposed on the top of the elastic member 514 according to still another embodiment of the present invention.
- the signal output terminal is disposed on the top of the elastic member 514 , that is, the signal output terminal is disposed between the elastic member 514 and the second electrical connection area 522 .
- the second electrical connection area 522 is directly electrically connected to the corresponding first electrical connection area 516 .
- the elastic member 514 may be a common elastic member or the above-mentioned elastic member provided with a conductive area.
- the second electrical connection area 522 is a protruding metal contact. Since the elastic member 514 is carried under the first electrical connection area 516 , the reliability of the electrical connection between the second electrical connection area 522 and the first electrical connection area 516 is relatively high. Likewise, the shape selection of the elastic member 514 can be consistent with the above, and will not be repeated here.
- the three first electrical connection areas 516 are respectively disposed in different parts of the signal output terminal. Therefore, the three different parts of the signal output end are respectively arranged at different positions of the elastic member.
- the first electrical connection area 516b is disposed on the top of the elastic member
- the first electrical connection area 516a is embedded in the elastic member 514
- the first electrical connection area 516c is disposed at the bottom of the elastic member, as shown in FIG. 11 .
- a plurality of separate conductive parts and/or a plurality of separate insulating parts are arranged between the transmitter and the sensor, and one part can only play one function, which increases the complexity of the internal structure of the detection device. degree.
- the reliability of the electrical connection between the transmitter and the sensor is poor, and the problems of signal interruption and data loss are prone to occur.
- the present invention discloses a high-reliability analyte detection device, the signal output end is bent or bent toward the bottom surface of the bottom case, the signal output end and the same elastic member are in contact with each other, and the transmitter and the The reliability of the electrical connection between the sensors greatly reduces the possibility of data loss, reduces the number of structures inside the device, and enhances the user experience.
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Abstract
一种高可靠性分析物检测器件,包括:底壳(10);传感器(113),传感器(113)装配于底壳(10)上,传感器(113)包括信号输出端(113a,213a,313a,413a)和检测端(113b,213b),信号输出端(113a,213a,313a,413a)设置至少两个互相绝缘的第一电连接区(116,116a,116b,116c,216a,216b,216c,316a,316b,316c,416a,416b,416c,516,516a,516b,516c),信号输出端(113a,213a,313a,413a)向底壳(10)的底面弯曲或者弯折;发射器(12),发射器(12)与底壳(10)互相卡合,发射器(12)设置有至少两个与第一电连接区(116,116a,116b,116c,216a,216b,216c,316a,316b,316c,416a,416b,416c,516,516a,516b,516c)相对应且互相绝缘的第二电连接区(122,122a,122b,122c,222a,222b,222c,322a,322b,322c,422,422a,422b,422c,522,522a,522b,522c),第一电连接区(116,116a,116b,116c,216a,216b,216c,316a,316b,316c,416a,416b,416c,516,516a,516b,516c)与对应的第二电连接区(122,122a,122b,122c,222a,222b,222c,322a,322b,322c,422,422a,422b,422c,522,522a,522b,522c)之间电连接;和一个弹性件(114,214,514),信号输出端(113a,213a,313a,413a)与弹性件(114,214,514)相接触。这种设计提高了检测器件内部电连接的可靠性,避免数据丢失,增强用户体验。
Description
本发明主要涉及医疗器械领域,特别涉及一种高可靠性分析物检测器件。
正常人身体中的胰腺可自动监测人体血液中的葡萄糖含量,并自动分泌所需的胰岛素/胰高血糖素。而糖尿病患者胰腺的功能出现异常状况,无法正常分泌人体所需胰岛素。因此糖尿病是人体胰腺功能出现异常而导致的代谢类疾病,糖尿病为终身疾病。目前医疗技术尚无法根治糖尿病,只能通过稳定血糖来控制糖尿病及其并发症的发生和发展。
糖尿病患者在向体内注射胰岛素之前需要检测血糖。目前多数的检测手段可以对血糖连续检测,并将血糖数据实时发送至远程设备,便于用户查看,这种检测方法称为连续葡萄糖检测(Continuous Glucose Monitoring,CGM)法。该方法需要检测装置贴在皮肤表面,将其携带的探头刺入皮下的组织液完成检测。
但是,目前的检测装置结构复杂且不紧凑,检测装置整体体积较大,影响用户的伸展活动,运动或者穿衣等动作时,检测器件容易被触碰,或者拆卸更换部件时损伤导电部件,使得检测器件失去有效的电连接而中断检测,导致检测数据丢失,给用户带来安全的隐患。
因此,现有技术亟需一种电连接性能好、方便拆卸的高可靠性分析物检测器件。
发明内容
本发明实施例公开了一种高可靠性分析物检测器件,信号输出端与同一个弹性件相接触,提高检测器件内部电连接的可靠性的同时又减少器件内部的结构数量,拆卸更换发射器时不会损伤导电部件,避免失去有效的电连接而导致数据丢失,增强用户体验。
本发明公开了一种高可靠性分析物检测器件,包括:发射器,发射器设置有至少一个第一卡合部和至少两个互相绝缘的第一电连接区;底壳,底壳上设置有与第一卡合部对应的第二卡合部,通过第一卡合部与第二卡合部互相卡合,发射器装配于底壳上,底壳包括固定部与施力部,在分离底壳与发射器时,固定所述固定部,并在一个方向上对施力部施加力的作用,底壳失效,至少一对互相卡合的第一卡合部与第二卡合部互相分离,进而分离底壳与发射器;传感器,传感器装配于底壳上,传感器包括信号输出端和检测端,信号输出端设置至少两个与第一电连接区相对应且互相绝缘的第二电连接区,第一电连接区与 对应的第二电连接区之间电连接;一个弹性件,信号输出端与弹性件相接触;和电池,与发射器连接,用于为发射器提供电能。
根据本发明的一个方面,第一电连接区为金属触点。
根据本发明的一个方面,信号输出端向底壳的底面弯曲或者弯折。
根据本发明的一个方面,信号输出端设置于弹性件的顶部,第一电连接区与对应的第二电连接区直接电连接。
根据本发明的一个方面,弹性件包括至少两个导电区和至少一个绝缘区,相邻两个导电区之间设置有绝缘区,至少两个第一电连接区通过不同的导电区分别与对应的第二电连接区间接电连接,不同的第一电连接区或者不同的第二电连接区分别与不同的导电区间接电连接。
根据本发明的一个方面,导电区和绝缘区分别在纵向方向穿过弹性件。
根据本发明的一个方面,信号输出端嵌入弹性件内部或者设置于弹性件的底部。
根据本发明的一个方面,不同的第一电连接区设置于信号输出端的不同部分上,信号输出端的不同部分互相独立,互不干涉。
根据本发明的一个方面,信号输出端嵌入弹性件内部,不同部分的信号输出端在弹性件中嵌入位置的高度不完全相同。
根据本发明的一个方面,每个部分的信号输出端嵌入弹性件内部,或者设置于弹性件底部,或者设置于弹性件顶部。
根据本发明的一个方面,第一电连接区和第二电连接区的数量分别为三个。
根据本发明的一个方面,底壳装配发射器的部分为施力部。
根据本发明的一个方面,底壳侧边设置有向外的凸部,所述凸部为所述施力部。
根据本发明的一个方面,电池设置于底壳内,底壳中设置有至少一个连接孔,通过连接孔,发射器与电池的两极电连接,电池部位为施力部。
根据本发明的一个方面,连接孔周围设置有密封圈以密封电连接位置,在对施力部施加作用力时,密封圈提供促进底壳与发射器分离的弹力。
与现有技术相比,本发明的技术方案具备以下优点:
本发明公开的高可靠性分析物检测器件中,传感器装配于底壳上,传感器包括信号输出端和检测端,信号输出端向底壳的底面弯曲或者弯折,且信号输出端与弹性件相接触。第一电连接区与第二点连接区电连接时,根据第一电连接区设置的位置,同一个弹性件起到导电、承载或者缓冲作用,提高了电连接的可靠性,同时又减少器件内部的结构数量, 弯折施力部即可拆卸发射器,用户拆卸、更换发射器更方便,并且电连接区不处于弯折区域,不会对导电部件造成损伤,避免检测数据丢失,提高分析物检测器件的可靠性,增强了用户体验。
进一步的,弹性件包括至少两个导电区和至少一个绝缘区,相邻两个导电区之间设置有绝缘区,至少两个第一电连接区通过不同的导电区分别与对应的第二电连接区间接电连接,不同的第一电连接区或者不同的第二电连接区分别与不同的导电区间接电连接。一个弹性件同时起到导电与绝缘的作用,不仅减少了检测器件内部结构的数量,同时弹性件又起到缓冲的作用,增强了发射器与传感器电连接的稳定性。
进一步的,不同的第一电连接区设置于信号输出端的不同部分上,信号输出端的不同部分互相独立,互不干涉。在实际的制造过程中,各个第一电连接区的厚度会有差异。当发射器与传感器连接后,这种互相独立、互不干涉的第一电连接区能够减弱或消除由上述厚度差异所引起接触不良的影响,提高弹性件、第一电连接区、第二电连接区之间电连接的稳定性。
图1为根据本发明一个实施例底壳的立体结构示意图;
图2为根据本发明一个实施例传感器与底壳的装配示意图;
图3为根据本发明一个实施例发射器的立体结构示意图;
图4a-图4b为根据本发明一个实施例弹性件、第一电连接区、第二电连接区的结构示意图,图4a为俯视图,图4b为图4a结构的侧视图;
图4c为根据本发明另一个实施例弹性件、第一电连接区的俯视结构示意图;
图4d-图4e为根据本发明不同实施例弹性件、第一电连接区、第二电连接区的俯视结构示意图;
图5为根据本发明另一个实施例弹性件、第一电连接区、第二电连接区的结构示意图;
图6a-图6b为根据本发明不同实施例第二电连接区和弹性件电连接位置的结构示意图;
图7a-图7b为根据本发明再一个实施例弹性件分别和第一电连接区、第二电连接区相互电连接的结构示意图,图7b为沿着图7a中剖面线A-A’得到的截面图;
图8a-图8b为根据本发明再一个实施例弹性件分别和第一电连接区、第二电连接区相互电连接的结构示意图,图8b为沿着图8a中剖面线B-B’得到的截面图;
图9a为根据本发明再一个实施例第二电连接区的立体结构示意图;
图9b为与图9a中第二电连接区相配合的弹性件与信号输出端的立体结构示意图;
图10为根据本发明再一个实施例信号输出端设置于弹性件顶部的结构示意图;
图11为根据本发明又一个实施例不同部分的信号输出端设置于弹性件的不同位置的结构示意图。
如前所述,现有技术的体液参数检测装置检测数据容易丢失,用户体验较差,给患者生活带来不便。
经研究发现,造成上述问题的原因,一方面为现有检测装置的发射器与传感器之间需要设置多个导电部件,且还设置有额外的绝缘部件将相邻的导电件隔开,检测装置内部结构比较复杂,结构不够紧凑,电连接性能较差,另一方面用户拆卸发射器时容易损伤导电部件,电连接不稳定,造成数据丢失。
为了解决该问题,本发明提供了一种高可靠性分析物检测器件,信号输出端与同一个弹性件相接触,弯折施力部即可拆卸发射器,不影响导电部件,避免导电部件的损伤,提高了检测器件电连接的可靠性,避免数据丢失,增强用户体验。
现在将参照附图来详细描述本发明的各种示例性实施例。应理解,除非另外具体说明,否则在这些实施例中阐述的部件和步骤的相对布置、数字表达式和数值不应被理解为对本发明范围的限制。
此外,应当理解,为了便于描述,附图中所示出的各个部件的尺寸并不必然按照实际的比例关系绘制,例如某些单元的厚度、宽度、长度或距离可以相对于其他结构有所放大。
以下对示例性实施例的描述仅仅是说明性的,在任何意义上都不作为对本发明及其应用或使用的任何限制。这里对于相关领域普通技术人员已知的技术、方法和装置可能不作详细讨论,但在适用这些技术、方法和装置情况下,这些技术、方法和装置应当被视为本说明书的一部分。
应注意,相似的标号和字母在下面的附图中表示类似项,因此,一旦某一项在一个附图中被定义或说明,则在随后的附图说明中将不需要对其进行进一步讨论。
图1为本发明实施例底壳10的立体结构示意图。图2为本发明实施例传感器113与底壳10的装配示意图。结合参照图1和图2,进行详细说明。
底壳10用于装配传感器113和发射器12。在本发明的实施例中,底壳10的底面设置有用于辅助安装传感器113的装配孔101,装配孔101的周围设置有第一卡合结构102,以 辅助将传感器113安装在底壳10上。结合图2和图3,底壳10的侧壁还设置有用于固定发射器12的第二卡合部104,相对应的,发射器12设置有可与第二卡合部104卡合的第一卡合部123。
在本发明实施例中,第二卡合部104的数量为两个,两个第二卡合部104对应设置于底壳10的侧壁。
在本发明其他实施例中,第二卡合部104的数量为四个,四个第二卡合部104对应设置于底壳10相对的侧壁,每侧各两个。
在本发明其他实施例中,第二卡合部104的数量为六个,六个第二卡合部104对应设置于底壳10的侧壁,每侧各两个。
在本发明实施例中,弯折施力部即可使底壳失效,底壳失效方式包括底壳10的底板断裂、底壳折损、第二卡合部断裂、底壳变形中的一种或多种组合,总而言之,底壳失效后第一卡合部123与第二卡合部104脱离卡合连接,发射器12即可脱离底壳10,由于电连接部件,发射器12的第二电连接区122不位于施力部,用户拆卸发射器12时不会对电连接部件造成损害,更换底壳10后再将发射器12安装到新的底壳上,不影响第二连接区122与新的底壳的第一电连接区116电连接,保证电连接的稳定性。
在本发明实施例中,固定部与施力部是相对的概念。根据底壳10与发射器12的结构设计,固定部与施力部的位置可以有不同的选择。
在本发明其他实施例中,两个第二卡合部104的连线l将底壳10分为X侧与Y侧。Y侧设置有施力部,X侧设置有固定部。
因此,在本发明实施例中,分离底壳10和发射器12的过程如下:用手指固定X侧的固定部,用另一个手指沿一个方向对Y侧施力部施加作用力F,使第二卡合部104失效,进而分离第二卡合部104与第一卡合部123,使发射器12与底壳10分离。
在本发明实施例中,施力部为底壳侧边向外的凸起103,凸起103的形状、尺寸、数量不作限制,优选的,凸起103为半圆弧状,方便用户用手指按压,并且节约空间,保证较小、紧凑的底壳结构。
在本发明的其他实施例中,底壳10还可以是其他形状,只要能够满足将发射器12和传感器113安装在底壳10上的条件即可,这里并不作具体限制。
传感器113装配在底壳10上的方式有多种,在这里不作具体限制。具体的,在本发明实施例中,底壳10包括传感器基座111。传感器113通过传感器基座111安装到底壳10上。传感器基座111四周设置有第二卡合结构112,第二卡合结构112将与第一卡合结构102 互相卡合,以将传感器基座111安装在装配孔101内,进而将传感器113装配到底壳10上。
在本发明的另一个实施例中,将传感器113安装在底壳10上之后,传感器113的辅助安装结构被移除,传感器113没有传感器基座111或其他部件承载,而是单独被安装在底壳10上。
在本发明的其他实施例中,传感器113还可以以其他的装配方式被装配到底壳10上,在这里不作具体限制。
需要说明的是,在本发明实施例中,传感器基座111上还设置有密封圈130和放置密封圈130的凹槽131。
请继续参考图2,传感器113包括信号输出端113a和检测端113b。信号输出端113a需与发射器12的第二电连接区122电连接以将检测信号传输到发射器12。检测端113b用于刺入人体皮下组织以检测体液分析物参数信息。
信号输出端113a设置有互相绝缘的第一电连接区116。常规的,传感器113上还设置有用于检测分析物参数信息的电极和/或电极导线(在这里和下文中均未示出)。电极的检测信号需要通过第一电连接区116导出。
需要说明的是,本发明的实施例并不限制第一电连接区116在信号输出端113a上的设置方式。如第一电连接区116可以设置于信号输出端113a的表面,或者嵌入信号输出端113a中。
一般的,传感器113上至少设置两个检测电极,即至少包括工作电极和对电极。因此,在本发明的实施中,信号输出端113a表面至少设置两个第一电连接区116,以与不同的电极电连接。具体的,在本发明实施例中,传感器113为三电极体系。因此,第一电连接区116的数量为三个。
如图2所示,在本发明的实施例中,信号输出端113a向底壳10的底面弯曲或者弯折。信号输出端113a与传感器基座111的表面贴合,或者嵌入传感器基座111内。这样的设计降低了传感器113凸出于底壳10的高度,减小检测器件的厚度尺寸。
在本发明的其他实施例中,传感器113还可以是其它形状或形态(如非弯折),这里并不作具体限制。
图3为本发明实施例发射器12的立体结构示意图。
发射器12设置有互相绝缘的第二电连接区122。第二电连接区122用于和第一电连接区116电连接,进而接收来自传感器113的电信号。因此,第二电连接区122与第一电连接区116相对应。
在这里,相对应是指两者数量相等、两者的位置基本对应。明显的,在本发明实施例中,第二电连接区122的数量为三个,以和传感器113的三电极体系相适应。
在本发明实施例中,第二电连接区122裸露,并凸出于发射器壳体121。具体的,在本发明实施例中,第二电连接区122为金属触点。体积较小金属触点使检测器件内部结构更紧凑,检测器件的体积将进一步缩小。
在本发明实施例中,电池(图中未示出)设置在发射器壳体121内,在其他实施例中,电池也可以设置在底壳10中,用于向发射器12提供电能。
需要说明的是,本发明的实施例并不限制第二电连接区122的形状、位置。如在本发明的一个实施例中,第二电连接区122未凸出于发射器壳体121表面,而是与发射器壳体121表面平齐。在本发明的另一个实施例中,第二电连接区122位于发射器壳体121内部,下文将详细叙述。如在本发明的又一个实施例中,第二电连接区的截面为矩形或者圆形。在本发明的再一个实施例中,第二电连接区的导电部分设置于插接件的表面,或者第二电连接区122自身即为插接件。插接件可以插入同一个弹性件中,下文将详细叙述。
图4a为本发明实施例一个弹性件、第一电连接区、第二电连接区的俯视结构示意图。图4b为图4a中弹性件的侧视图。图4c为本发明另一个实施例弹性件、第一电连接区的俯视结构示意图。图4d-图4e为本发明不同实施例弹性件、第一电连接区、第二电连接区的俯视结构示意图。
首先需要指出的是,图4a中细虚线表示第一电连接区被弹性件覆盖部分的轮廓,粗虚线表示信号输出端被弹性件覆盖部分的轮廓。后续附图中的细虚线、粗虚线与此处的意义相同,下文不在赘述。
本发明实施例的检测器件中包括一个弹性件114。弹性件114与信号输出端113a相接触。只设置一个弹性件114减少了检测器件内部结构的数量。另外,弹性材料在受到挤压后发生变形,进而起到锁紧作用。因此,弹性件114作为导电结构或者作为电连接位置的辅助结构均能彼此连接更紧密,进而提高电连接的可靠性。
在本发明的一个实施例中,信号输出端113a设置于弹性件114的底部,第一电连接区116与对应的第二电连接区122间接电连接。在这里,弹性件114的底部是指弹性件114靠近皮肤的部分。
此时,弹性件114包括至少两个导电区114a和至少一个绝缘区114b。导电区114a和绝缘区114b分别起到电导通和电绝缘的作用。导电区114a与绝缘区114b彼此不能够被分离,即导电区114a与绝缘区114b分别属于弹性件114整体的一部分。
相邻导电区114a之间设置有绝缘区114b。不同的第一电连接区116或者不同的第二电连接区122分别与不同的导电区114a电连接,进而使任意两个第一电连接区116或者任意两个第二电连接区122彼此电绝缘。
在弹性件114内部,导电区114a与绝缘区114b在纵向方向上穿过弹性件114,如图4b所示。在这里,纵向方向是指从第一电连接区116指向对应第二电连接区122的方向,或者是指第一电连接区116和第二电连接区122之间电流的方向。当第一电连接区116与第二电连接区122电连接后,这样的设计保证弹性件114只能纵向导电,不能横向导电。弹性件114使第一电连接区116与对应第二电连接区122电连接的同时,又使不同的第一电连接区116之间或者不同的第二电连接区122之间电绝缘。一个弹性件114同时起到电导通和电绝缘的作用,检测器件内部结构的复杂程度降低,内部结构更紧凑,提高了检测器件的电连接可靠性。
需要说明的是,在本发明的其他实施例中,导电区114a或者绝缘区114b还可以具有一定倾斜度,或者以其他方向或方式排布于弹性件114内部,在这里并不作具体限制,只要能够满足上述电导通和电绝缘的条件即可。
请结合参考图2、图4a和图4b,具体的,在本发明实施例中,弹性件114为长方体结构。导电区114a与绝缘区114b间隔设置,且分别贯穿弹性件114。在本发明的另一个实施例中,不同的导电区114a排布在同一个绝缘区114b中,即被同一块绝缘区114b环绕包围,如图4d所示。在本发明的再一个实施例中,弹性件114的俯视图可为圆环形,如图4e所示。在本发明的又一个实施例中,弹性件114的俯视图还可以为圆形。
在本发明的其他实施例中,弹性件114还可以有其他的形状,在这里并不作具体限制,只要能够满足实现弹性件114上述功能的条件即可。
请继续参考图4a和图4b,当弹性件114分别和第一电连接区116和第二电连接区122电连接后,与弹性件114连接的任意两个第一电连接区116之间间隔有绝缘区114b。具体的,在本发明实施例中,上述任意两个第一电连接区116之间所间隔绝缘区114b包括一个绝缘区114b的一部分(如图4a和图4b的116a与116b之间)、或者一个绝缘区114b、或者多于一个绝缘区114b(如图4a和图4b的116c与116b之间)。同样的,与弹性件114连接的任意两个第二电连接区122之间所间隔绝缘区114b包括一个绝缘区114b的一部分、或者一个绝缘区114b、或者多于一个绝缘区114b。但明显的,第一电连接区和对应的第二电连接区(如116a和122a之间、116b和122b之间、或者116c和122c之间)公用部分导电区114a,以实现两者的电导通。公用部分的导电区包括一个导电区114a的一部分(如图 4a和图4b中116c和122c之间)、或者一个导电区114a、或者多于一个导电区114a。
结合图4a和图4b,本领域技术人员很容易理解,上述一个绝缘区或导电区的一部分、一个绝缘区或导电区、和多于一个绝缘区或导电区只是第一电连接区或第二电连接区在一维方向(如导电区排布方向)的跨度范围。
而在本发明的其他实施例中,一个绝缘区或导电区的一部分、一个绝缘区或导电区、和多于一个绝缘区或导电区还可以表示第一电连接区或第二电连接区在二维方向(在面积上)对绝缘区或导电区的覆盖范围,如图4c所示。以第一电连接区为例,图4c中的虚线表示第一电连接区的部分轮廓。明显的,第一电连接区116能够覆盖一个绝缘区或导电区的一部分、或者一个绝缘区或导电区、或者多于一个绝缘区或导电区。
明显的,上述结构之间导电区或绝缘区的数量较多或者范围较广时,结构之间的电连接或者电绝缘的可靠性将显著提高。
在本发明实施例中,弹性件114的材料包括弹性塑料、弹性橡胶等。使用弹性件114可以获得更良好的电接触,同时又起到缓冲作用。当弹性件114的材料为弹性橡胶时,弹性件114为导电胶条。一个导电胶条即同时起到导电和绝缘的作用,又起到缓冲作用。
明显的,当传感器113为两电极体系时,第一电连接区和第二电连接区的个数均为2个。此时,弹性件114只要包括两个导电区114a和一个设置于两个导电区114a之间的绝缘区114b即可。即两对不同的第一电连接区和第二电连接区分别通过不同的导电区114a电连接,以实现电导通。同时,两个第一电连接区或者两个第二电连接区通过绝缘区隔开,以实现电绝缘。
本发明其他实施例的传感器还可以包括更多个电极。因此,弹性件114中包括更多个互相间隔设置的导电区和绝缘区,电连接的方式将更加灵活,如图5所示。
需要说明的是,在本发明的其他实施例中,传感器包括至少3个电极,即信号输出端113a设置至少3个第一电连接区,其中至少有两个第一电连接区通过不同的导电区114a与对应的第二电连接区电连接,其连接方法、原理与上文一致。对于其他未与弹性件114连接的第一电连接区和第二电连接区,本发明的实施例并不限制其连接方式或连接原理。如在本发明一个实施例中,传感器为3电极体系,其中只有工作电极和对电极分别由对应的第一电连接区通过上述弹性件与第二电连接区电连接,而参比电极通过其他方式与发射器电连接。
图6a-图6b为本发明不同实施例第二电连接区122和弹性件114电连接位置的结构示意图。
为了便于标注和叙述,图6a与图6b中的第二电连接区122和弹性件114将被分离示出。
如图6a所示,在本发明实施例中,第二电连接区122为凸出的球冠型金属触点。对应的,弹性件114在与凸出的金属触点相连接的位置设置有凹部(未示出),使连接更紧密。同时,这种凸部与凹部的连接还起到固定弹性件114位置的作用,即,不论检测器件受到何种外力,弹性件114的位置始终固定,不发生位移,确保弹性件114执行正常的导电和绝缘工作。
需要说明的是,弹性件114可以不设计凹部。当受到凸出的金属触点挤压后,弹性件114上会自动出现与金属触点相配合的凹部,确保实现电连接或者电绝缘的功能。
如图6b所示,在本发明的另一个实施例中,第二电连接区122设置于发射器12内部。此时,弹性件114上对应设置有凸部(未示出),凸部能够进入发射器12内部,并与对应的第二电连接区122电连接。
图7a-图7b为本发明另一个实施例弹性件214分别和第一电连接区、第二电连接区相互电连接的结构示意图。图7a为俯视图。图7b为沿着图7a中剖面线A-A’得到的截面图。
本发明实施例的3个第二电连接区222a、222b、222c分别与3个第一电连接区216a、216b、216c间接电连接。弹性件214中导电区214a与绝缘区214b的排布方式请参考前文所述。
具体的,请参考图7b,在本发明实施例中,信号输出端213a嵌入弹性件214内部。因此,3个第一电连接区216a、216b、216c均嵌入弹性件214内。为了固定传感器的位置,信号输出端213a与检测端231b由传感器基座211承载。
本发明实施例弹性件214分别和第一电连接区、第二电连接区相互电连接的原理、方法与前文所述一致。
图8a-图8b为本发明再一个实施例弹性件分别和第一电连接区、第二电连接区相互电连接的结构示意图。图8a为俯视图。图8b为沿着图8a中剖面线B-B’得到的截面图。
在本发明实施例中,不同的第一电连接区设置于信号输出端313a的不同部分上,信号输出端313a的不同部分互相独立,互不干涉。具体的,3个第一电连接区均嵌入弹性件的导电区314a和/或绝缘区314b中。如图8b所示,在本发明实施例中,3个第一电连接区在弹性件中嵌入位置的高度不完全相等。
在实际的制造过程中,各个第一电连接区的厚度会有差异。当发射器与传感器连接后,这种互相独立、互不干涉的第一电连接区能够减弱或消除由上述厚度差异所引起接触不良 的影响,提高了三者电连接的可靠性。
明显的,在本发明的其他实施例中,3个第一电连接区中可以只有两个嵌入弹性件中,另一个第一电连接区设置于弹性件的底部,或者3个第一电连接区在弹性件内嵌入的高度相等,在这里并不做具体限制。
图9a为本发明再一个实施例第二电连接区422的立体结构示意图。图9b为与图9a中第二电连接区422相配合的弹性件与信号输出端413a的立体结构示意图。
3个第二电连接区422a、422b、422c为插接件,且凸出于发射器壳体412。插接件的类型如上文所述。弹性件中设置有3个插孔401,以与3个第二电连接区相配合。3个第二电连接区能够分别插入对应的插孔401。
在本发明实施例中,插孔401的长度方向与导电区414a或绝缘区414b的排布方向垂直。在本发明的其他实施例中,两个方向可以根据需求任意设计。如在本发明的一个实施例中,插孔长度方向与导电区排布方向平行。其电连接的原理、方法请参考前文所述。
图10为本发明再一个实施例信号输出端设置于弹性件514的顶部的结构示意图。
在本发明的再一个实施例中,信号输出端设置于弹性件514的顶部,即,信号输出端设置于弹性件514与第二电连接区522之间。此时,第二电连接区522与对应的第一电连接区516直接电连接。因此,弹性件514为普通弹性件或者上述设置有导电区的弹性件均可。优选的,第二电连接区522为凸出的金属触点。由于第一电连接区516的下方有弹性件514承载,因此,第二电连接区522与第一电连接区516电连接的可靠性较高。同样的,弹性件514的形状选择可与上文一致,在这里不再赘述。
如前所述,信号输出端的不同部分可以互相独立,互不干涉。优选的,在本发明的又一个实施例中,三个第一电连接区516分别设置于信号输出端的不同部分中。所以信号输出端的三个不同部分分别设置于弹性件的不同位置。如第一电连接区516b设置于弹性件顶部,第一电连接区516a嵌入弹性件514内部,第一电连接区516c设置于弹性件底部,如图11所示。当有更多个互相独立的第一电连接区516时,不同第一电连接区设置的位置可根据需要任意选择。
现有的检测装置中,发射器与传感器之间设置有多个分离的导电部件和/或多个分离的绝缘部件,且一个部件只能起到一种作用,增加了检测装置内部结构的复杂程度。同时,发射器与传感器电连接的可靠性较差,容易出现信号中断、数据丢失的问题。
综上所述,本发明公开了一种高可靠性分析物检测器件,信号输出端向底壳的底部表面弯曲或弯折,信号输出端与同一个弹性件互相接触件,增加了发射器与传感器之间电连 接的可靠性,极大降低了数据丢失的可能性,同时减少器件内部的结构数量,增强了用户体验。
虽然已经通过示例对本发明的一些特定实施例进行了详细说明,但是本领域的技术人员应该理解,以上示例仅是为了进行说明,而不是为了限制本发明的范围。本领域的技术人员应该理解,可在不脱离本发明的范围和精神的情况下,对以上实施例进行修改。本发明的范围由所附权利要求来限定。
Claims (16)
- 一种高可靠性分析物检测器件,其特征在于,包括:发射器,所述发射器设置有至少一个第一卡合部和至少两个互相绝缘的第一电连接区;底壳,所述底壳上设置有与所述第一卡合部对应的第二卡合部,通过所述第一卡合部与所述第二卡合部互相卡合,所述发射器装配于所述底壳上,所述底壳包括固定部与施力部,在分离所述底壳与所述发射器时,固定所述固定部,并在一个方向上对所述施力部施加力的作用,所述底壳失效,至少一对互相卡合的所述第一卡合部与所述第二卡合部互相分离,进而分离所述底壳与所述发射器;传感器,所述传感器装配于所述底壳上,所述传感器包括信号输出端和检测端,所述信号输出端设置至少两个与所述第一电连接区相对应且互相绝缘的第二电连接区,所述第一电连接区与对应的所述第二电连接区之间电连接;一个弹性件,所述信号输出端与所述弹性件相接触;和电池,与发射器连接,用于为所述发射器提供电能。
- 根据权利要求1所述的高可靠性分析物检测器件,其特征在于,所述第一电连接区为金属触点。
- 根据权利要求1所述的高可靠性分析物检测器件,其特征在于,所述信号输出端向所述底壳的底面弯曲或者弯折。
- 根据权利要求1所述的高可靠性分析物检测器件,其特征在于,所述信号输出端设置于所述弹性件的顶部,所述第一电连接区与对应的所述第二电连接区直接电连接。
- 根据权利要求3所述的高可靠性分析物检测器件,其特征在于,所述弹性件包括至少两个导电区和至少一个绝缘区,相邻两个所述导电区之间设置有所述绝缘区,至少两个所述第一电连接区通过不同的所述导电区分别与对应的所述第二电连接区间接电连接,不同的所述第一电连接区或者不同的所述第二电连接区分别与不同的所述导电区间接电连接。
- 根据权利要求4所述的高可靠性分析物检测器件,其特征在于,所述导电区和所述绝缘区分别在纵向方向穿过所述弹性件。
- 根据权利要求4所述的高可靠性分析物检测器件,其特征在于,所述信号输出端嵌入所述弹性件内部或者设置于所述弹性件的底部。
- 根据权利要求6所述的高可靠性分析物检测器件,其特征在于,不同的所述第一电连接区设置于所述信号输出端的不同部分上,所述信号输出端的不同部分互相独立,互 不干涉。
- 根据权利要求7所述的高可靠性分析物检测器件,其特征在于,所述信号输出端嵌入所述弹性件内部,不同部分的所述信号输出端在所述弹性件中嵌入位置的高度不完全相同。
- 根据权利要求7所述的高可靠性分析物检测器件,其特征在于,每个部分的所述信号输出端嵌入所述弹性件的内部,或者设置于所述弹性件的底部,或者设置于所述弹性件的顶部。
- 根据权利要求1所述的高可靠性分析物检测器件,其特征在于,所述第一电连接区和所述第二电连接区的数量分别为三个。
- 根据权利要求1所述的体液分析物检测装置,其特征在于,所述底壳装配所述发射器的部分为所述施力部。
- 根据权利要求1所述的体液分析物检测器件,其特征在于,所述底壳侧边设置有向外的凸部,所述凸部为所述施力部。
- 根据权利要求1所述的体液分析物检测装置,其特征在于,所述电池设置于所述底壳内,所述底壳中设置有至少一个连接孔,通过所述连接孔,所述发射器与所述电池的两极电连接,所述电池部位为所述施力部。
- 根据权利要求14所述的体液分析物检测装置,其特征在于,所述连接孔周围设置有密封圈以密封电连接位置,在对所述施力部施加作用力时,所述密封圈提供促进所述底壳与所述发射器分离的弹力。
- 根据权利要求1所述的体液分析物检测器件,其特征在于,所述底壳失效方式包括所述底壳的底板断裂、所述底壳折损、所述第二卡合部断裂、所述底壳变形中的一种或多种组合。
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| PCT/CN2022/080849 WO2022252746A1 (en) | 2021-05-31 | 2022-03-15 | Analyte detection device with three-dimensional sensor |
| CN202210255772.4A CN115474928B (zh) | 2019-08-19 | 2022-03-15 | 分析物检测装置 |
| CN202210254207.6A CN115474933B (zh) | 2021-05-31 | 2022-03-15 | 立体传感器分析物检测装置 |
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