CN214632156U - Chargeable formula transmitter - Google Patents

Abstract

The utility model discloses a chargeable formula transmitter, including the transmitter body, this internal fixed data processing components and parts of transmitter, data processing components and parts have chargeable formula battery through tongue tube electric connection, the utility model discloses a transmitter is chargeable formula structure, has not only solved the transmitter body on the existing market and has not had the function of charging, and the person of facilitating the use uses to use, and the customer uses to experience and feels, has satisfied the market demand, simultaneously, has also solved and has been in power consumptive always in transmitter storage and the transportation, can appear that the user has just installed and just discover the transmitter because the electric quantity has consumed unable normal use problem.

Description

Chargeable formula transmitter

Technical Field

The utility model relates to an implantability sensor technical field, concretely relates to chargeable formula transmitter.

Background

Monitoring of blood glucose is very important for diabetics, and blood glucose values help to assess conditions of glucose metabolism disorders in diabetics. Currently, the detection of blood glucose can be divided into in vitro detection after blood collection and real-time detection of an implantable blood glucose sensor. When blood sugar is controlled by the method of in vitro detection after blood collection, blood collection is required to be performed for many times every day, which causes heavy burden on the spirit and the flesh of a patient, so that the method of real-time detection by an implantable blood sugar sensor is increasingly popular.

The existing blood sugar continuous monitoring product which can be used for clinical blood sugar is technically verified to a certain extent and only has a micro sensor implanted in subcutaneous tissue, therefore, in the field, a tiny and soft biosensor electrode needs to be implanted under the skin, a puncture tube penetrates into the skin at an extremely high speed to reduce pain to an extremely low level, the electrode part of the sensor is left under the skin to realize continuous monitoring, the part on the skin of the sensor needs to be fixed with the skin, a skin fixing base used for fixing the sensor on the skin and a transmitter connected with the skin fixing base are needed, the transmitter is used for reflecting data detected by the sensor implanted under the skin to a user, but the transmitter on the market does not have a charging function at present, the continuous use time is limited, and monitoring failure can be caused if power failure occurs in the use process; and the transmitter has precise internal structure, and the battery needs to be replaced by a professional after the electric quantity is consumed, so that a user can not replace the battery by himself. Meanwhile, the problem that the emitter is always in power consumption in the storage and transportation processes can also exist, and the phenomenon that the emitter cannot be normally used due to the fact that the emitter cannot be used normally due to the fact that the emitter is used up just after a user installs the emitter can also occur. Accordingly, it is desirable to provide a rechargeable transmitter.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a chargeable formula transmitter, the user can charge by oneself, and power consumptive problem in transmitter storage and the transportation has also been solved to simple convenient and fast.

The utility model provides a chargeable formula transmitter, its is including the transmitter body, this internal fixed data processing components and parts of transmitter, data processing components and parts have chargeable formula battery through tongue tube electric connection.

Preferably, the emitter body is in a cavity shape with an open top, and an emitter cover is covered on the top of the emitter body.

Preferably, the data processing component is electrically connected with a charging contact, and the charging contact is fixed in the inner cavity of the emitter body and extends to the bottom of the emitter body.

Preferably, the data processing component is electrically connected with a charging indicator lamp, and the charging indicator lamp extends to the upper surface of the transmitter cover body and is clamped with the transmitter cover body.

Preferably, an installation cavity for accommodating the implantable biosensor is formed in the outer side face of the bottom of the emitter body.

Preferably, an electrode conduction column used for matching with information transmission of the implantable biosensor is arranged on the side wall of the mounting cavity, and the electrode conduction column is electrically connected with the data processing component.

Preferably, a first clamping block is formed on the inner wall of the mounting cavity.

Preferably, the emitter body is detachably arranged in a charging seat, and a magnet is fixed in the charging seat at a position corresponding to the reed pipe.

Preferably, a second clamping groove is formed in the outer side face of the bottom of the emitter body. The utility model has the advantages that:

(1) the utility model discloses a chargeable formula transmitter, including the transmitter body, this internal fixed of transmitter has data processing components and parts, data processing components and parts have chargeable formula battery through tongue tube electric connection, the utility model discloses a transmitter is chargeable formula structure, has not only solved the transmitter body on the existing market and has not had the function of charging, and the person of facilitating the use uses to experience and feels, simultaneously, has also solved and has been in power consumptively in transmitter storage and the transportation always, can appear that the user has just installed and just discover the transmitter because the electric quantity has consumed the problem of unable normal use.

(2) The utility model discloses a chargeable formula transmitter, including the transmitter body, the transmitter body is open-top's cavity form, and its top lid has closed the transmitter lid, this internal shaping of transmitter has gluey groove, the shaping have on the transmitter lid with gluey groove closely complex glues the post, the transmitter body with the transmitter lid adopts glue sealed fixed to can prevent the phenomenon that the transmitter lid upwarps in the glue curing process.

(3) The utility model discloses a detachable rotatory lid of transmitter fits on the skin fixing base, the shaping has the mount pad on the base, the shaping have on the transmitter body with the installation cavity that the mount pad mutually supported, be equipped with the sealing washer around the mount pad, the sealing washer with base fixed connection, the sealing washer is kept away from one side of base with the lower surface of transmitter body closely laminates, implants sensor fixing device in the mount pad during use, closes base and transmitter body through rotatory lid, makes the lower surface of transmitter body closely laminate with the upper surface of sealing washer at rotatory in-process for the whole sealing of mount pad is in the sealing washer, and isolated external liquid medium gets into, reaches sealed waterproof effect, does not worry after wearing to bathe, the influence of swimming to the monitoring accuracy.

(4) The utility model discloses the shaping has first fixture block on the installation intracavity wall of transmitter body, the upper surface of first fixture block is the first inclined plane of tilt up, the lateral wall shaping of mount pad has and is convenient for gliding first spout about the first fixture block, the mount pad is located the spacing groove has been seted up to the part of first spout bottom, when the top of spacing groove left side wall was the second inclined plane that the inclined plane of the first fixture block of being convenient for slided in used, slided into the bottom of first spout with first fixture block through first spout, later rotatory first fixture block a little for the first inclined plane of first fixture block enters into the spacing inslot through the second inclined plane, accomplishes the transmitter and closes with the rotatory lid of base, makes the sealing washer can closely laminate with the transmitter, thereby realizes waterproof purpose.

(5) The elastic locking block is fixedly connected on the base of the utility model, the elastic locking block is positioned on the right side of the mounting seat and is close to the lug, one side of the elastic locking block, which is far away from the base, is an upward inclined plane, a second clamping groove matched with the elastic locking block is formed on the emitter body, separating grooves are formed on two sides of the base, the base part positioned between the separating grooves forms an elastic plate, a concave surface is formed on the side wall of the emitter, the concave surface is positioned above the elastic plate, after the emitter and the base rotate, the elastic locking block can enter the second clamping groove to complete the locking function, when the emitter and the base are required to be opened, the elastic plate only needs to be pressed downwards slightly, fingers are placed on the concave surface to separate the elastic locking block from the second clamping groove, later separate the transmitter body through first spout and base through the rotation for transmitter and base can be closed, also can separate.

Drawings

FIG. 1 is a schematic view of the implantable biosensor skin holder of the present invention separated from the emitter;

FIG. 2 is a schematic view of the whole body of the implantable biosensor skin fixing base and the emitter rotary cover of the present invention;

FIG. 3 is a schematic view of the implantable biosensor skin anchor and emitter of the present invention before rotation;

fig. 4 is a bottom perspective view of the transmitter of the present invention;

fig. 5 is a top perspective view of the internal structure of the transmitter body of the present invention;

fig. 6 is a bottom perspective view of the internal structure of the emitter body of the present invention;

fig. 7 is a perspective view of the emitter cover of the present invention;

FIG. 8 is a schematic view of the base of the present invention;

fig. 9 is a schematic view of a second holding groove of the present invention;

fig. 10 is a bottom perspective view of the emitter of the present invention;

fig. 11 is a schematic cross-sectional view of the transmitter of the present invention in a state of being covered with the base;

FIG. 12 is a schematic view of the implantable biosensor mounting device of the present invention shown disassembled;

FIG. 13 is a schematic view of the lower holder of the implantable biosensor of the present invention;

fig. 14 is an overall view of a charging seat of a rechargeable transmitter according to the present invention;

fig. 15 is a schematic structural view of an upper case of a charging seat of a rechargeable transmitter according to the present invention;

fig. 16 is a perspective view of the charging seat upper shell of the charging seat of the rechargeable emitter according to the present invention;

fig. 17 is an exploded view of a charging seat of a rechargeable transmitter according to the present invention;

fig. 18 is a schematic structural view illustrating the fixing of the rechargeable emitter and the charging seat according to the present invention.

In the drawings: a9. a charging base; a91. a magnet; a92. a charging chamber; a93. the charging seat is arranged on the shell; a931. an upper shell clamping strip; a94. a charging seat lower shell; a941. a lower shell clamping groove; a95. a magnet slot; a96. fixing a column; a PCB circuit board; a USB interface; a99. a through hole; a100. a charging post; a USB card slot; a102. elastic buckle; a103. a taking and placing groove; a104. an indication groove; 2. an emitter body; a2. a launcher cover; a3. a data processing component; a4. a rechargeable battery; a5. a charging contact; a6. a charging indicator light; a7. a glue groove; a8. glue columns; 1. a base; 11. an elastic locking block; 12. a second card slot; 13. a separation tank; 14. an elastic plate; 122. a groove; 123. a clamping block; 124. a through hole; 150. a bump; 151. a second through groove; 160. a second bump; 161. a third through groove; 21. a concave surface; 22. an electrode conducting post; 230. a fourth fixture block; 240. a fifth clamping block; 3. a mounting seat; 31. a first chute; 32. a first limit groove; 33. a second inclined plane; 34. a first through groove; 35. a notch; 351. a first clamping groove; 352. a second clamping groove; 36. fixing the clamping groove; 4. a mounting cavity; 41. a first clamping block; 42. a second fixture block; 43. an implantable sensor fixation device; 46. a first inclined plane; 5. a seal ring; 6. a third fixture block; 61. a connecting plate; 62. clamping a plate; 7. a first groove; 9. an implanter; 300. an implanter housing; 302. an installation mechanism; 303. a sensor mounting assembly; 304. an elastic force section; 305. a control unit; 307. an installation mechanism; 308. a first spring clip; 309. a second elastic clip; 311. a first hook chuck; 312. a second hook chuck; 313. a third hook chuck; 314. a cover plate; 315. a bridging plate; 420. an upper fixed seat; 421. an electrode hole; 430. an electrode column; 411. a limiting groove; 410. a lower fixed seat; 404. a first stopper; 405. a second limiting block; 406. a third limiting block; 50. an implantable biosensor.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, which illustrate only some embodiments of the invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "disposed," "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning either a fixed connection or a removable connection; may be a mechanical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

A rechargeable emitter comprises an emitter body 2, wherein the emitter body 2 is covered on an implantable biosensor skin fixing seat in a rotating mode, and the emitter body 2 can be detachably placed in a charging seat.

Specifically, implantation nature biosensor skin fixing base is including base 1, base 1's lower surface is equipped with and is used for the adhesive tape fixed with skin, the shaping has mount pad 3 on the base 1, offer the installation cavity 4 that is used for holding implantation nature biosensor 50 on the bottom lateral surface of emitter body 2, its big or small shape of installation cavity 4 with mount pad 3 cooperatees.

Specifically, be equipped with sealing washer 5 around mount pad 3, sealing washer 5 with base 1 fixed connection, sealing washer 5 with emitter body 2's bottom is closely laminated, the sealing washer recess of being convenient for sealing washer 5 to place is seted up on base 1, sealing washer 5 is kept away from one side of base 1 is most advanced, makes at rotatory in-process through such design because sealing washer 5 is big with base 1's area of contact, with emitter body 2's area of contact is little to can prevent effectively that sealing washer 5 from taking place the phenomenon of distortion to appear.

Specifically, first fixture block 41 is formed on the inner wall of mounting cavity 4, the upper surface of first fixture block 41 is first inclined plane 46 of tilt up, the lateral wall of mount pad 3 is formed with and is convenient for first fixture block 41 is gliding first spout 31 from top to bottom, mount pad 3 is located first spacing groove 32 has been seted up to the part of first spout 31 bottom, the top of first spacing groove 32 left side wall is the second inclined plane 33 that first inclined plane 46 of first fixture block 41 of being convenient for slided into.

Specifically, mounting cavity 4 is kept away from to be formed with second fixture block 42 on the inside wall of first fixture block 41, set up on mount pad 3 and be convenient for the rotatory first logical groove 34 that goes into of second fixture block 42, after first fixture block 41 entered into first spacing groove 32, second fixture block 42 slided into first logical groove 34 for mount pad 3 can closely wrap up in sealing washer 5, the dop that second fixture block 42 is closest to first logical groove 34 is the inclined plane, is convenient for go into first logical groove 34 with second fixture block 42.

Specifically, the shaping has third chuck block 6 on the base 1, third chuck block 6 is located the left side of mount pad 3, third chuck block 6 including with base 1 fixed connection's connecting plate 61, the perpendicular fixedly connected with cardboard 62 in top of connecting plate 61, first recess 7 has been seted up on the transmitter body 2, the lateral wall shaping of first recess 7 has the joint clearance that the cardboard 62 of being convenient for rotation card was gone into.

Specifically, a protrusion 150 is formed at an edge of the base 1 far from the first sliding groove 31, a fourth locking block 230 matched with the emitter body 2 is formed at a corresponding position of the emitter body 2, a second protrusion 160 is formed at an edge of the base 1 far from the third locking block 6, a third through groove 161 is formed at a side surface of the second protrusion 160, a fifth locking block 240 matched with the emitter body 2 is formed at a corresponding position of the emitter body 2, an elastic locking block 11 is fixedly connected to the base 1, the elastic locking block 11 is located at a right side of the mounting seat 3 and close to the protrusion 150, one surface of the elastic locking block 11 far from the base 1 is an upward inclined surface, a second clamping groove 12 matched with the elastic locking block 11 is formed on the emitter body 2, separation grooves 13 are formed at two sides of the base 1 located on the elastic locking block 11, be located two base 1 part between separation groove 13 forms elastic plate 14, the lower surface of elastic plate 14 is higher than base 1's lower surface, emitter body 2's lateral wall shaping has concave surface 21, concave surface 21 is located elastic plate 14's top, during the use, after first fixture block 41 enters into first spacing groove 32, the cardboard 62 is rotatory to be entered into the joint clearance, the fourth fixture block 230 is rotatory to be entered into second through groove 151, fifth fixture block 240 is rotatory to be entered into in third through groove 161, later the rotatory card of elasticity latch segment 11 is gone into second draw-in groove 12 and is locked, has accomplished the sealed of emitter body 2 and each angle of base 1, has strengthened holistic sealed effect, separation groove 13 has played the effect of water guide simultaneously, can discharge the water that enters into in the fixing base.

Specifically, a fixing slot 36 for mounting the sensor fixing device 43 is formed in the mounting seat 3, a notch 35 facilitating exposure of an electrical contact of the implantable biosensor 50 is formed in the left side wall of the mounting seat 3, a through hole 124 for passing through a hard needle tube is formed in one end, away from the fixture block 123, of the slot bottom of the fixing slot 36, a groove 122 is formed in the slot wall adjacent to the notch 32 of the fixing slot 36, a fixture block 123 for limiting the sensor fixing device 43 is formed in the slot wall of the groove 122, one end of the fixture block 123 is fixed to the slot wall of the groove 122, the other end of the fixture block 123 is a free end and extends obliquely into the fixing slot 36, the fixture block 123 is similar to a barb, when the sensor fixing device 43 is pushed into the fixing slot 36, the fixture block 123 is squeezed under the elastic action, and after the sensor fixing device 43 is completely pushed into the fixing slot 36, the latch 123 is ejected to latch the sensor fixing unit 43.

Specifically, be equipped with the electrode conduction post 22 that is used for cooperating implantation biosensor 50 information transmission on the lateral wall of installation cavity 4, electrode conduction post 22 with data processing components and parts a3 electric connection, the position that electrode conducted post 22 with the position of breach 35 cooperatees, after emitter body 2 rotates and base 1 carries out the lid and closes, electrode conduction post 22 on the emitter body 2 and the electrode post 430 on the implantation biosensor fixing device 43 switch on to the information that will detect transmits.

The sensor fixing device 43 is used for fixing the implantable biosensor 50, and comprises a lower fixing seat 410 and an upper fixing seat 420 which are matched with each other, wherein the upper fixing seat 420 is made of silica gel, a limit groove 411 for placing the implantable biosensor 50 is formed in the lower fixing seat 410, an electrode hole 421 is formed from the upper surface to the lower surface of the upper fixing seat 420, an electrode column 430 is embedded into the electrode hole 421, the upper fixing seat 420 is embedded into the lower fixing seat 410 through the matching of a buckle and a clamping groove, the electrode part of the implantable biosensor 50 is tightly attached to prevent liquid from entering, the contact of the electrode column 430 is exposed, the electrode column 430 can be a spring needle or conductive rubber, a first limit block 404 is formed on one side surface of the lower fixing seat 410 along the width direction, a second limit block 405 is formed on the side surface of the lower fixing seat 410 opposite to the first limit block 404, and a third limit block 406 is formed on one side of the lower fixing seat 410 on which the second limit block 405 is formed, the sensor fixing device 43 is implanted into the fixing slot 36 along the inclined directions of the first limiting block 404, the second limiting block 405 and the third limiting block 406, and the inclined surfaces of the first limiting block 404, the second limiting block 405 and the third limiting block 406 play a role in inclined guiding.

Implantable biosensor 50 adopts the design of bending, through such design of bending, has reduced the vertical length of implantable biosensor 50 for when the sensor was implanted, need not artifical the bending, prolonged implantable biosensor's life.

Specifically, a data processing component a3 is fixed in the transmitter body 2, the data processing component a3 is electrically connected with a rechargeable storage battery a4 through a reed switch, the transmitter body 2 is detachably placed in a charging seat, a magnet a91 is fixed in the charging seat at a position corresponding to the reed switch, the magnet a91 can be a magnet, the reed switch adopts a normally closed mode (i.e. normally closed magnetic reed switch), under normal conditions, the data processing component a3 and the rechargeable storage battery a4 are in a connected state, the data processing component a3 can normally work, when charging is needed, the transmitter body 2 is placed in the rechargeable storage battery a4 for charging, the magnet a91 applies acting force to the reed switch, so that the normally closed reed of the reed switch is separated, and the data processing component a3 and the rechargeable storage battery a4 are in a disconnected state, data processing components and parts a3 stop work, transmitter body 2 is chargeable formula structure, but has not only solved transmitter body 2 on the existing market and has not had the function of charging, the person of facilitating the use uses, the customer uses and experiences and feels good, and simultaneously, also solved and be in power consumptive problem in transmitter storage and the transportation always, can appear the user just install and just discover the transmitter because the electric quantity finishes unable normal use's phenomenon, place the transmitter and install and carry out storage and transportation after the packing on the charging seat.

Specifically, the emitter body 2 is in a cavity shape with an open top, the top of the emitter body is covered with an emitter cover a2, a glue groove a7 is formed in the emitter body 2, a glue column a8 tightly matched with the glue groove a7 is formed on the emitter cover a2, the emitter body 2 and the emitter cover a2 are sealed and fixed by glue, during specific operation, the glue is placed in the glue groove a7, and the glue column a8 is buckled in the glue groove a7, so that the phenomenon that the emitter cover a2 is warped up in the glue curing process can be prevented.

Specifically, the data processing component a3 is electrically connected to a charging contact a5, the charging contact a5 is fixed to the inner cavity of the emitter body 2 and extends to the bottom of the emitter body 2, and the charging contact a5 is used for connection with a charging stand during charging.

Specifically, the data processing component a3 is electrically connected with a charging indicator lamp a6, the charging indicator lamp a6 extends to the upper surface of the transmitter cover a2 and is clamped with the transmitter cover a2, and when the transmitter is in a charging state, the charging indicator lamp a6 is electrified to work and represents that the transmitter is in the charging state.

Specifically, the charging seat is including charging base a9, charging base a9 upper surface shaping has the chamber a92 that charges with transmitter bottom profile matched with, charging base a9 internal fixation has PCB circuit board a97, be fixed with on PCB circuit board a97 and charge post a100, charge post a100 is kept away from PCB circuit board a 97's one end is passed charging base a9 and is extended to in the chamber a92 that charges, charge post a100 contacts with the charging contact 5 of transmitter for the intercommunication of transmitter and charging seat, charging base a 9's side is provided with USB interface a98, USB interface a98 is used for the charging seat to be connected with computer or power. The USB joint groove of, the flexible buckle a102 of shaping on the chamber a92 inside wall charges for the joint transmitter for the transmitter is placed and is difficult for dropping in the charging seat, uses convenient to carry. The charging cavity a92 is formed with a taking and placing groove a103 at the edge for facilitating the taking and placing of the emitter.

The working principle is as follows: the sensor fixing device 43 with the implanted biosensor 50 is pushed into the fixing slot 36, and then the emitter body 2 is installed on the base 1, specifically comprising the following steps: the first fixture block 41 is slid into the bottom of the first sliding groove 31 through the first sliding groove 31, then the first fixture block 41 is slightly rotated, so that the first inclined surface 46 of the first fixture block enters the limiting groove 32 through the second inclined surface 33, the clamping plate 62 is rotated to enter the clamping gap, the fourth fixture block 230 is rotated to enter the second through groove 151, then the elastic locking block 11 is rotated to be clamped into the second through groove 12 for locking, the transmitter body 2 is rotatably covered with the base 1, so that the sealing ring can be tightly attached to the transmitter body 2, and the waterproof purpose is achieved Influence of swimming on monitoring accuracy. When the emitter body 2 needs to be charged, the emitter body 2 is taken down from the base 1 in a counter-rotating mode, pushed into the charging cavity a92 and fastened and fixed through the elastic buckle a102, at the moment, the charging post a100 on the charging seat is in contact with the charging contact a5 on the emitter, the charging seat is communicated with the emitter, the magnet a91 in the charging seat generates magnetic field acting force on a reed pipe in the emitter, so that normally closed reeds of the reed pipe are separated, the data processing component a3 and the rechargeable storage battery a4 are in a disconnected state, the data processing component a3 stops working, and finally, after the USB interface a98 is connected with a power supply, the charging indicator lamp a6 is electrified and works, and the emitter is in a charging state. Emitter body 2 is chargeable formula structure, has not only solved emitter body 2 on the existing market and has not had the function of charging, and the person of facilitating the use uses, and the customer uses and experiences and feels good, simultaneously, has also solved and has been in power consumptive problem in emitter storage and the transportation always, can appear that the user has just installed and just discover the phenomenon that the emitter can't normal use because the electric quantity has consumed up, stores in storage and transports after placing the installation on the charging seat and packing.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (10)

1. A rechargeable transmitter, characterized by: the transmitter comprises a transmitter body (2), wherein a data processing component (a3) is fixed in the transmitter body (2), and the data processing component (a3) is electrically connected with a rechargeable storage battery (a4) through a reed switch.

2. The rechargeable transmitter of claim 1, wherein: the emitter body (2) is in a cavity shape with an opening at the top, and an emitter cover body (a2) is covered at the top of the emitter body.

3. The rechargeable transmitter of claim 1, wherein: the data processing component (a3) is electrically connected with a charging contact (a5), and the charging contact (a5) is fixed in the inner cavity of the emitter body (2) and extends to the bottom of the emitter body (2).

4. The rechargeable transmitter of claim 2, wherein: the data processing component (a3) is electrically connected with a charging indicator lamp (a6), and the charging indicator lamp (a6) extends to the upper surface of the transmitter cover body (a2) and is clamped with the transmitter cover body (a 2).

5. The rechargeable transmitter of claim 1, wherein: and an installation cavity (4) for accommodating the implantable biosensor (50) is formed in the outer side surface of the bottom of the emitter body (2).

6. The rechargeable transmitter of claim 5, wherein: the electrode conduction column (22) used for being matched with the implanted biosensor (50) for information transmission is arranged on the side wall of the mounting cavity (4), and the electrode conduction column (22) is electrically connected with the data processing component (a 3).

7. The rechargeable transmitter of claim 5, wherein: first fixture block (41) is formed on the inner wall of installation cavity (4), and second fixture block (42) is formed at the position, far away from the forming, of first fixture block (41) on the inner side wall of installation cavity (4).

8. The rechargeable transmitter of claim 1, wherein: the emitter body (2) is detachably arranged in a charging seat, and a magnet (a91) is fixed at the position, corresponding to the reed pipe, in the charging seat.

9. The rechargeable transmitter of claim 1, wherein: and a second clamping groove (12) is formed on the outer side surface of the bottom of the emitter body (2).

10. The rechargeable transmitter of claim 2, wherein: a glue groove (a7) is formed in the emitter body (2), and a glue column (a8) which is tightly matched with the glue groove (a7) is formed on the emitter cover body (a 2).

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