CN112603301A

CN112603301A - Reader device for collecting blood sugar information and controlling injection insulin amount

Info

Publication number: CN112603301A
Application number: CN202110017262.9A
Authority: CN
Inventors: 梁志朋
Original assignee: Guangzhou Yunpeng Technology Co ltd
Current assignee: Guangzhou Yunpeng Technology Co ltd
Priority date: 2021-01-07
Filing date: 2021-01-07
Publication date: 2021-04-06

Abstract

The invention discloses a reader device for collecting blood sugar information and controlling the amount of injected insulin, which comprises a reading box, wherein a collecting injection cavity with a forward opening is arranged in the reading box, a limiting groove with a forward opening is arranged in the rear wall of the collecting injection cavity, two symmetrical shafts are rotationally connected in the rear wall of the collecting injection cavity, the two symmetrical shafts are symmetrically distributed and arranged in a left-right mode by taking the central line of the collecting injection cavity as a symmetrical center, and symmetrical gears are fixedly connected to the symmetrical shafts.

Description

Reader device for collecting blood sugar information and controlling injection insulin amount

Technical Field

The invention relates to the field of information collectors, in particular to a reader device for collecting blood sugar information and controlling the amount of injected insulin.

Background

In some serious diabetics, if the blood sugar of the serious diabetics cannot be well controlled in real time in daily life, the serious diabetics can easily suffer from diabetes, generally injected insulin usually needs to be carried by a simple injector and is not convenient and fast, and the real-time control of the blood sugar cannot be guaranteed, the serious diabetics usually need to control the injection amount of the insulin rather than rely on the injected insulin, and the reader device for collecting the blood sugar information to control the injection amount of the insulin can solve the problems.

Disclosure of Invention

In order to solve the problems, the embodiment designs a reader device for collecting blood sugar information and controlling the amount of insulin to be injected, the reader device for collecting blood sugar information and controlling the amount of insulin to be injected comprises a reading box, a collecting injection cavity with a forward opening is arranged in the reading box, a limiting groove with a forward opening is arranged in the rear wall of the collecting injection cavity, two symmetrical shafts are rotationally connected to the rear wall of the collecting injection cavity, the two symmetrical shafts are distributed and arranged in a bilateral symmetry mode by taking the central line of the collecting injection cavity as a symmetry center, symmetrical gears are fixedly connected to the symmetrical shafts, a rotating ring is rotationally arranged in the collecting injection cavity, the outer peripheral surface of the rotating ring is connected to the inner wall of the limiting groove in a sliding mode, the left end and the right end of the rotating ring are meshed with the symmetrical gears on the two sides, and an outer moving groove with an opening facing the center of the rotating ring, the opening of the outer moving groove faces forwards, three embedded sliding plates are connected to the inner wall of the outer moving groove in a sliding mode, an auxiliary storage box is fixedly connected to the front ends of the embedded sliding plates, front embedded shafts are rotatably connected to two ends of each embedded sliding plate, front torsion springs are fixedly connected to the outer peripheral surfaces of the front embedded shafts, front rods are connected to the outer peripheral surfaces of the front torsion springs, one ends, far away from the embedded sliding plates, of the front rods are rotatably connected to front shafts, moving wheels are rotatably connected to the outer peripheral surfaces of the front shafts, the outer peripheral surfaces of the moving wheels are connected to the inner wall of the outer moving groove in a meshing mode, front vertical rods are fixedly connected to the outer peripheral surfaces of the front shafts, sliding cavities with opposite openings are formed in the front vertical rods, push rods are slidably connected to the inner walls of the sliding cavities, hinge shafts are rotatably connected to the rear end, the embedded sliding plate is fixedly connected with a rear spring at one end close to the center of the rotating ring, the rear spring is fixedly connected with a rear push block at one end close to the center of the rotating ring, the rear end of the articulated shaft is rotationally connected into the front end face of the rear push block, the rear end of the interface tube is slidably connected onto the front end face of the rear push block, the rear wall of the outer moving groove is rotationally connected with two inner shafts, the two inner shafts are distributed and arranged in a bilateral symmetry mode by taking the central line of the acquisition injection cavity as the symmetry center, the outer peripheral face of each inner shaft is fixedly connected with an inner gear, an inner ring block is meshed and connected between the inner gears, an inner moving groove with an opening facing the center of the rotating ring is arranged in the inner ring block, the inner wall of the inner moving groove is slidably connected with three square plates, the front ends of the square plates are fixedly connected with, the two elastic wheels are arranged in a bilateral symmetry manner by taking the central line of the square plate as a symmetry center, the outer peripheral surfaces of the elastic wheels are fixedly connected with elastic torsion springs, the outer peripheral surfaces of the elastic torsion springs are rotatably connected with side rods, the ends, far away from each other, of the side rods are rotatably connected with front wheels, the outer peripheral surfaces of the front wheels are rotatably connected with inner ring wheels, the outer peripheral surfaces of the inner ring wheels are meshed and connected with the inner wall of the inner moving groove, the outer peripheral surfaces of the front sides of the front wheels are fixedly connected with the front ends of the front wheels, push cavities with opposite openings are arranged in the swing rods, the inner walls of the push cavities are rotatably connected with push rods, the rear end surfaces of the push rods are rotatably connected with push shafts, one ends, far away from each other, of the storage boxes are fixedly connected with injection needle, the return spring is fixedly connected with an auxiliary block at one end far away from each other, the rear end of the butt joint pipe is connected to the front end face of the auxiliary block in a sliding manner, the square plate is fixedly connected with a proximity spring at one end close to each other, an injection needle is fixedly connected to one end close to each other, the rear end of the injection needle pipe is connected to the front end face of the injection needle in a sliding manner, the outer peripheral face of the rear end of the push shaft is connected to the front end face of the injection needle in a rotating manner, when insulin needs to be injected to a diabetic, the diabetic wears the reading box, the rotating ring and the inner ring block on the arm of the diabetic, the diabetic inserts the arm between the injection needles and enables the injection needle to abut against the arm skin of the diabetic, and then the symmetric gear is driven to rotate through the rotation of the symmetric shaft, when the rotating ring rotates clockwise in the forward direction, the moving wheel is driven to rotate clockwise on the inner wall of the outer moving groove in the one-way direction and drive the swinging rod and the auxiliary pushing rod to swing away from each other, so as to drive the auxiliary pushing shaft to rotate, so as to push the friction pushing blocks to jack up each other, and when the rotating ring rotates anticlockwise in the reverse direction, the moving wheel is driven to rotate anticlockwise on the inner wall of the outer moving groove in the one-way direction and drive the friction pushing blocks to move away from each other, so as to drive the moving wheel to rotate and move on the inner wall of the outer moving groove, so as to drive the front shaft to rotate, so as to drive the auxiliary swinging rods to swing away from each other, so as to drive the auxiliary pushing rods to swing away from each other and extend on the inner wall of the auxiliary pushing cavity, so as to drive the auxiliary pushing shaft to rotate, thereby driving the friction moving blocks to move close to each other, further stretching the rear spring, further driving the mouthpiece tubes to extend close to each other, further driving the front rod to swing, further driving the front embedding shaft and the front torsion spring to rotate, the torsion spring enables the sliding plate to stably move on the inner wall of the outer moving groove, further driving the embedding sliding plate and the auxiliary storage box to move on the inner wall of the outer moving groove, at this time, insulin in the auxiliary storage box is filled in the mouthpiece tube and ready for insulin injection to a patient, at this time, the inner shaft rotates, further driving the built-in gear to rotate, further driving the inner ring block to rotate, and when the inner ring block rotates clockwise, further driving the inner ring wheel to rotate clockwise in a single direction, further driving the swinging rod and the pushing rod to move away from each other in a swinging manner, then the pushing shaft is driven to rotate, the injection needles are driven to approach each other to be jacked up and started to inject, when the injection of the injection needles is finished, the inner albizzia blocks rotate reversely and anticlockwise, the inner ring wheel is driven to rotate reversely and anticlockwise rotate in a one-way mode, the injection needles are driven to move close to each other, the inner ring wheel is driven to rotate and move on the inner wall of the inner moving groove, the front wheel is driven to rotate, the swinging rods are driven to swing away from each other, the pushing and separating rods are driven to move on the inner wall of the swinging rods and swing away from each other, the pushing shaft is driven to rotate, the injection needles are driven to move close to each other, the injection needles are pricked into the skin of a diabetic, the approaching spring is stretched, and the square plate moves to drive the side rods to swing, and then drive the elasticity torsional spring, the elastic wheel rotates, and then drive storage box removes, and then drive the supplementary piece is kept away from each other and is removed, and then tensile return spring with be close to the spring, at this moment the butt joint pipe with the interface tube carries out the butt joint of insulin, at this moment the storage box with the insulin in the supplementary storage box passes through the butt joint pipe, injection needle pipe, the interface tube, at this moment through injection needle pipe carries out the injection of insulin to the patient.

Preferably, the outer peripheral surface of the built-in shaft is rotatably connected with sliding blocks, one ends of the sliding blocks, which are far away from each other, are fixedly connected with long springs, one ends of the sliding blocks, which are close to each other, are fixedly connected with short springs, one ends of the short springs, which are close to each other, are fixedly connected with one ends of the inner ring blocks, which are far away from each other, are fixedly connected with the inner wall of the outer moving groove, one ends of the outer moving groove, which are far away from each other, are fixedly connected with four magnetic force sliding blocks, adaptive springs are fixedly connected between the magnetic force sliding blocks, when the inner ring blocks and the rotating rings need to adapt to the sizes of the arms of different diabetics, the inner ring blocks move to drive the magnetic force sliding blocks to move close to each other, the adaptive springs are compressed, and the, and then drive the sliding block is kept away from each other or is close to the removal, and then adapts to different patients' arm size.

Preferably, the upper end of the reading box is provided with an acquisition groove with an upward opening, the left wall of the acquisition groove is fixedly connected with two folding rods, the two folding rods are arranged in an up-and-down symmetrical distribution by taking the central line of the acquisition groove as a symmetrical center, a folding wheel is rotatably connected between the folding rods, the left wall of the acquisition groove is fixedly connected with a supporting spring, the right end of the supporting spring is connected to the outer peripheral surface of the folding wheel in a sliding manner, the right wall of the acquisition groove is fixedly connected with a soft spring, the left end of the soft spring and the right end of the folding rods are fixedly connected with an extrusion plate, the right end of the extrusion plate at the left side is fixedly connected with a blood sampling needle, the front end surface of the acquisition groove is rotatably connected with two embedding wheels, the two embedding wheels are arranged in an up-and-down symmetrical distribution by taking the central line, the utility model discloses a blood collection device, including swing inboard, be equipped with the relative magnetic force chamber of opening in the swing inboard, sliding connection has the magnetic force board on the magnetic force intracavity wall, magnetism is connected between the magnetic force board, when needs carry out the detection of blood sugar information to diabetic's blood, diabetic will point at this moment and insert gather the inslot, and then drive the removal is kept away from each other to the magnetic force board, and then drives the swing board the embedding wheel rotates, and patient points this moment and touches during the blood taking needle, the blood sampling is pointed to the patient and is taken a blood sample, and patient's blood is in this moment gather the inslot, and then drive the stripper plate is kept away from each other and is removed, and then the compression the soft spring, and then drive the folding removal of folding rod, and then drive the folding wheel rotates, and then the compression supporting.

Preferably, a sealed cavity is arranged on the upper side of the collection injection cavity, a detection driving motor is fixedly connected between the front wall and the rear wall of the sealed cavity, two partition plates are fixedly connected between the front wall and the rear wall of the sealed cavity, the two partition plates are symmetrically distributed and arranged in a bilateral mode with the central line of the sealed cavity as a symmetric center, isolation openings with opposite openings are formed in the partition plates, two parallel threaded shafts are dynamically connected to the ends, away from the left side and the right side, of the detection driving motor, the two parallel threaded shafts are symmetrically distributed and arranged in a bilateral mode with the central line of the detection driving motor as a symmetric center, the outer peripheral surfaces of the parallel threaded shafts are slidably connected to the inner walls of the isolation openings, threaded moving blocks are connected to the outer peripheral surfaces of the parallel threaded shafts in a threaded mode, two blood retention blocks are fixedly connected to the ends, away from the upper side and the, blood detains fixedly connected with two between the piece the runner pipe, two the runner pipe with blood detains piece central line and sets up as the bilateral symmetry of center of symmetry distribution, the downside blood detains piece lower extreme fixedly connected with and keeps apart the storage box, works as diabetes patient's blood in the collection groove gets into the upside when blood detains piece upper end, starts this moment keep apart the mouth, and then drive parallel threaded shaft rotates, and then drives blood detains the piece the screw thread movable block the runner pipe, keep apart the storage box and keep away from each other and remove, the upside this moment blood detains piece upper end blood and is detected blood glucose information, and the blood after being detected this moment passes through the runner pipe gets into store in the isolation storage box and prevent biochemical pollution.

Preferably, the upper wall of the sealed cavity is provided with two flow ports with upward openings, the two flow ports are symmetrically distributed and arranged in a bilateral manner by taking the central line of the sealed cavity as a symmetric center, the flow ports are communicated with the acquisition groove and the sealed cavity, the upper wall of the sealed cavity is provided with two fixed cavities with upward openings, the two fixed cavities are symmetrically distributed and arranged in a bilateral manner by taking the central line of the sealed cavity as a symmetric center, a detector is fixedly connected between the inner walls of the fixed cavities, the left and right sides of the sealed cavity are mutually far away from the side wall and are internally provided with two sliding grooves with opposite openings, the two sliding grooves are symmetrically distributed and arranged in a bilateral manner by taking the central line of the sealed cavity as a symmetric center, one end of the parallel threaded shaft, which is far away from the left and right sides, is fixedly connected with an extension shaft, the peripheral surface of the extension shaft is, when blood of a diabetic patient flows into the sealing cavity through the flow port in the collection groove, the detector detects blood sugar information of the diabetic patient and feeds back the blood sugar information, and the parallel threaded shafts rotate through blood transportation and insulin injection, so that the extension shafts and the side bevel gears are driven to rotate, and insulin injection is performed on the diabetic patient.

Preferably, the rear wall of the collection injection cavity is rotationally connected with two embedded shafts, the two embedded shafts are distributed in bilateral symmetry with the center line of the collection injection cavity as a symmetry center, the front end of each embedded shaft is fixedly connected with a front bevel gear, one end of each front bevel gear, which is close to each other, is engaged with the rear end of each side bevel gear, the outer peripheral surface of each embedded shaft is fixedly connected with a rear belt pulley, the outer peripheral surface of each symmetric shaft is fixedly connected with a front belt pulley, a vertical belt is rotationally connected between the front belt pulley and the rear belt pulley, the outer peripheral surface of each embedded shaft is fixedly connected with an annular belt pulley, a transmission belt is rotationally connected between the annular belt pulley and the front belt pulley, when the blood sugar information of a diabetic is collected and insulin is injected into the patient, the side bevel gears rotate, and then the front bevel gear and the embedded shaft are driven to rotate, so that the rear belt pulley and the vertical belt are driven to rotate, the front belt pulley and the symmetrical shaft are driven to rotate, the transmission belt, the annular belt pulley and the built-in shaft are driven to rotate, and then blood sugar information monitoring and insulin injection are carried out on a patient.

The invention has the beneficial effects that: can daily dress on the diabetic patient of some severe to carry out real-time detection through the blood sugar to the patient, control the patient through the monitoring to the blood sugar and need inject the volume of insulin, thereby control diabetic patient's blood sugar and control patient's the diabetes state of an illness, thereby guarantee that the diabetic patient of severe can normal life.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic diagram of the overall structure of a reader device for collecting blood sugar information to control the amount of insulin to be injected according to the present invention.

Fig. 2 is an enlarged schematic view of a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Fig. 6 is an enlarged schematic view of E in fig. 1.

FIG. 7 is a schematic view of the structure of F-F in FIG. 1.

Fig. 8 is an enlarged schematic view of G in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a reader device for collecting blood sugar information and controlling the amount of injected insulin, which comprises a reading box 11, wherein a collection injection cavity 12 with a forward opening is arranged in the reading box 11, a limiting groove 100 with a forward opening is arranged in the rear wall of the collection injection cavity 12, two symmetrical shafts 88 are rotationally connected to the rear wall of the collection injection cavity 12, the two symmetrical shafts 88 are symmetrically distributed and arranged in a left-right mode by taking the center line of the collection injection cavity 12 as the symmetrical center, symmetrical gears 89 are fixedly connected to the symmetrical shafts 88, a rotating ring 13 is rotationally arranged in the collection injection cavity 12, the outer peripheral surface of the rotating ring 13 is connected to the inner wall of the limiting groove 100 in a sliding mode, the left end and the right end of the rotating ring 13 are meshed with the symmetrical gears 89 at two sides, an outer moving groove 18 with an opening facing the center of the rotating ring 13 is arranged on the inner wall of the rotating ring 13, three embedded sliding plates 73 are slidably connected to the inner wall of the outer moving groove 18, the front end of each embedded sliding plate 73 is fixedly connected with an auxiliary storage box 58, two ends of each embedded sliding plate 73 are rotatably connected with a front embedded shaft 72, the outer peripheral surface of each front embedded shaft 72 is fixedly connected with a front torsion spring 59, the outer peripheral surface of each front torsion spring 59 is connected with a front rod 61, one end of each front rod 61, far away from the embedded sliding plate 73, is rotatably connected with a front shaft 60, the outer peripheral surface of the front shaft 60 is rotatably connected with a moving wheel 71, the outer peripheral surface of the moving wheel 71 is engaged and connected to the inner wall of the outer moving groove 18, the outer peripheral surface of the front shaft 60 is fixedly connected with a front vertical rod 70, a sliding cavity 64 with opposite openings is arranged in the front vertical rod 70, a pushing rod 63 is slidably connected to the inner wall of the sliding cavity, the auxiliary storage box 58 is fixedly connected with a mouthpiece 65 at one end close to each other, the embedded sliding plate 73 is fixedly connected with a rear spring 67 at one end close to the center of the rotating ring 13, the rear spring 67 is fixedly connected with a rear push block 66 at one end close to the center of the rotating ring 13, the rear end of the hinge shaft 68 is rotatably connected in the front end surface of the rear push block 66, the rear end of the mouthpiece 65 is slidably connected to the front end surface of the rear push block 66, two built-in shafts 97 are rotatably connected in the rear wall of the outer moving groove 18, the two built-in shafts 97 are symmetrically distributed with the center line of the collection injection cavity 12 as the symmetry center, built-in gears 96 are fixedly connected on the outer peripheral surface of the built-in shafts 97, an inner ring block 57 is engaged and connected between the built-in gears 96, an inner moving groove 20 with an opening facing the center of the rotating, the inner wall of the inner moving groove 20 is slidably connected with three square plates 38, the front ends of the square plates 38 are fixedly connected with a storage box 51, two elastic wheels 50 are rotationally connected with two end faces of the storage box 51, the two elastic wheels 50 are symmetrically distributed and arranged in a bilateral mode by taking the central line of the square plates 38 as the symmetrical center, the outer peripheral surface of each elastic wheel 50 is fixedly connected with an elastic torsion spring 47, the outer peripheral surface of each elastic torsion spring 47 is rotatably connected with a side rod 41, one end of each side rod 41, which is far away from each other, is rotatably connected with a front wheel 49, the outer peripheral surface of each front wheel 49 is rotatably connected with an inner ring wheel 39, the outer peripheral surface of each inner ring wheel 39 is connected to the inner wall of the inner moving groove 20 in a meshing mode, the outer peripheral surface of the front side of the front wheel 49 is fixedly connected with a push cavity 48 with, a pushing shaft 37 is rotatably connected to the rear end face of the pushing rod 36, an injection needle tube 55 is fixedly connected to one end of the storage box 51 close to each other, a butt joint tube 44 is fixedly connected to one end of the storage box 51 far away from each other, a return spring 42 is fixedly connected to one end of the square plate 38 far away from each other, an auxiliary block 43 is fixedly connected to one end of the return spring 42 far away from each other, the rear end of the butt joint tube 44 is slidably connected to the front end face of the auxiliary block 43, a close spring 56 is fixedly connected to one end of the square plate 38 close to each other, an injection needle 54 is fixedly connected to one end of the close spring 56 close to each other, the rear end of the injection needle tube 55 is slidably connected to the front end face of the injection needle 54, the outer peripheral face of the rear end of the pushing shaft 37 is rotatably connected to the, The rotating ring 13 and the inner ring block 57 are worn on the arm of the diabetic patient, the diabetic patient inserts the arm between the injection needles 54 and makes the injection needle 54 abut against the arm skin of the diabetic patient, at this time, the symmetric shaft 88 rotates to drive the symmetric gear 89 to rotate, and further drive the rotating ring 13 to rotate, and when the rotating ring 13 rotates clockwise in the forward direction, the moving wheel 71 is further driven to rotate clockwise in one direction on the inner wall of the outer moving groove 18 and drive the swinging rod 70 and the auxiliary pushing rod 63 to swing away from each other, and further drive the auxiliary pushing shaft 68 to rotate, so as to push the friction pushing blocks 66 to jack up each other, and when the rotating ring 13 rotates counterclockwise in the reverse direction, the moving wheel 71 is further driven to rotate counterclockwise in one direction on the inner wall of the outer moving groove 18 and drive the friction pushing blocks 66 to move away from each other, thereby driving the moving wheel 71 to rotate and move on the inner wall of the outer moving groove 18, further driving the front axle 60 to rotate, further driving the auxiliary swinging rods 70 to swing away from each other, further driving the auxiliary pushing rods 63 to swing away from each other and extend on the inner wall of the auxiliary pushing cavity 64, further driving the auxiliary pushing axle 68 to rotate, further driving the friction moving blocks 66 to move closer to each other, further stretching the rear springs 67, further driving the interface tubes 65 to extend closer to each other, further driving the front rods 61 to swing, further driving the front embedding axle 72 and the front torsion spring 59 to rotate, the torsion spring 59 enabling the sliding plate 73 to stably move on the inner wall of the outer moving groove 18, further driving the embedding sliding plate 73 and the auxiliary storage box 58 to move on the inner wall of the outer moving groove 18, at this time, the insulin in the auxiliary storage box 58 is filled in the mouthpiece 65 and ready to be injected into the patient, at this time, the built-in shaft 97 rotates to drive the built-in gear 96 to rotate, and further drive the inner ring block 57 to rotate, when the inner ring block 57 rotates clockwise, further drive the inner ring wheel 39 to rotate clockwise and unidirectionally, further drive the swinging rod 46 and the pushing-away rod 36 to move away from each other and further drive the pushing shaft 37 to rotate, further drive the injection needles 54 to approach each other and be jacked up to start injection, when the injection needles 54 are finished, the inner ring block 57 rotates counterclockwise in reverse direction, further drive the inner ring wheel 39 to rotate counterclockwise and unidirectionally in reverse direction, further drive the injection needles 54 to move closer to each other, that is the injection is finished, further drive the inner ring wheel 39 to rotate and move on the inner wall of the inner moving groove 20, further driving the front wheel 49 to rotate, further driving the swing rod 46 to swing away from each other, further driving the push rod 36 to move on the inner wall of the swing rod 46 and swing away from each other, further driving the push shaft 37 to rotate, further driving the injection needles 54 to move close to each other, further making the injection needles 54 prick into the skin of the diabetic, further stretching the close spring 56, further driving the side rod 41 to swing by the movement of the square plate 38, further driving the elastic torsion spring 47 and the elastic wheel 50 to rotate, further driving the storage box 51 to move, further driving the auxiliary block 43 to move away from each other, further stretching the return spring 42 and the close spring 56, at this time, the docking tube 44 and the interface tube 65 perform insulin docking, at this time, the storage box 51 and the insulin in the auxiliary storage box 58 pass through the docking tube 44, The injection needle tube 55 and the mouthpiece 65, and at this time, insulin is injected into the patient through the injection needle tube 55.

Advantageously, a sliding block 95 is rotatably connected to the outer peripheral surface of the inner shaft 97, a long spring 94 is fixedly connected to the ends of the sliding blocks 95 far away from each other, a short spring 92 is fixedly connected to the ends of the sliding blocks 95 near to each other, the ends of the short springs 92 near to each other are fixedly connected to the ends of the inner ring blocks 57 far away from each other, the ends of the long springs 94 far away from each other are fixedly connected to the inner wall of the outer moving groove 18, four magnetic sliders 23 are fixedly connected to the inner wall of the outer moving groove 18 and the ends of the inner ring blocks 57 far away from each other, an adaptive spring 22 is fixedly connected between the magnetic sliders 23, when the inner ring blocks 57 and the rotating ring 13 need to adapt to different sizes of the arms of the diabetic patient, the inner ring blocks 57 move to drive the magnetic sliders 23 to move close to each other, thereby compressing or stretching the short spring 92 and the long spring 94, and further driving the sliding blocks 95 to move away from or close to each other, so as to adapt to the sizes of the arms of different patients.

Beneficially, the upper end of the reading box 11 is provided with an acquisition groove 29 with an upward opening, the left wall of the acquisition groove 29 is connected with two folding rods 27 in a sliding manner, the two folding rods 27 are arranged in a vertically symmetrical manner by taking the central line of the acquisition groove 29 as a symmetrical center, a folding wheel 25 is rotatably connected between the folding rods 27, the left wall of the acquisition groove 29 is fixedly connected with a supporting spring 26, the right end of the supporting spring 26 is connected with the outer peripheral surface of the folding wheel 25 in a sliding manner, the right wall of the acquisition groove 29 is fixedly connected with a soft spring 33, the left end of the soft spring 33 and the right end of the folding rod 27 are connected with an extrusion plate 34, the soft spring 33 is fixedly connected with the extrusion plate 34 on the right side, the folding rod 27 is connected with the extrusion plate 34 on the left side in a sliding manner, the right end of the extrusion plate 34 on the left side is fixedly connected with a blood collection needle 35, and two embedding, two the embedding wheel 32 with gather groove 29 central line and set up as the bilateral symmetry distribution of center of symmetry, rotate on the embedding wheel 32 outer peripheral face and be connected with swing board 28, be equipped with the relative magnetic force chamber 31 of opening in the swing board 28, sliding connection has magnetic force board 30 on the magnetic force chamber 31 inner wall, magnetism is connected between the magnetic force board 30, when the blood that needs to the diabetes patient carries out the detection of blood sugar information, the diabetes patient inserts the finger this moment in gather the groove 29, and then drives magnetic force board 30 moves far away from each other, and then drives swing board 28, embedding wheel 32 rotates, and the patient finger contacts when blood taking needle 35 this moment, blood taking needle 35 takes a blood sample to the patient finger, and patient's blood is in at this moment in gather the groove 29, and then drive the stripper plate 34 moves far away from each other, and then compress soft spring 33, and then the folding rod 27 is driven to move in a folding way, and then the folding wheel 25 is driven to rotate, so that the supporting spring 26 is compressed, and the blood collection of the patient is finished at the moment.

Beneficially, a sealed cavity 15 is arranged on the upper side of the collection injection cavity 12, a detection driving motor 81 is fixedly connected between the front wall and the rear wall of the sealed cavity 15, two partition plates 79 are fixedly connected between the front wall and the rear wall of the sealed cavity 15, the two partition plates 79 are symmetrically distributed and arranged in a left-right manner with the central line of the sealed cavity 15 as a symmetry center, isolation openings 80 with opposite openings are arranged in the partition plates 79, two parallel threaded shafts 17 are dynamically connected to ends of the detection driving motor 81 which are far away from each other in the left-right direction, the two parallel threaded shafts 17 are symmetrically distributed and arranged in a left-right manner with the central line of the detection driving motor 81 as a symmetry center, the outer peripheral surfaces of the parallel threaded shafts 17 are slidably connected to the inner walls of the isolation openings 80, a threaded moving block 75 is connected to the outer peripheral surfaces of the parallel threaded shafts, the two blood retention blocks 78 are distributed and arranged up and down symmetrically by taking the central line of the thread moving block 75 as the symmetric center, two of the circulation tubes 77 are fixedly connected between the blood detention blocks 78, the two circulation tubes 77 are symmetrically distributed with the center line of the blood detention block 78 as the symmetry center, the lower end of the blood detention block 78 at the lower side is fixedly connected with the separation storage box 74, when the blood of the diabetic patient in the collection tank 29 enters the upper end of the blood stagnation block 78 at the upper side, the isolation port 80 is actuated, and then the parallel screw shaft 17 is driven to rotate, and further the blood retention block 78, the screw moving block 75, the circulation tube 77 and the isolation storage box 74 are driven to move away from each other, at this time, blood at the upper end of the blood retention block 78 at the upper side is detected with blood glucose information, and at this time, the detected blood enters the isolation storage box 74 through the circulation tube 77 to be stored, so as to prevent biochemical pollution.

Advantageously, the upper wall of the sealed cavity 15 is provided with two flow ports 24 with upward openings, the two flow ports 24 are symmetrically distributed and arranged with the center line of the sealed cavity 15 as the symmetric center, the flow ports 24 communicate the collecting tank 29 with the sealed cavity 15, the upper wall of the sealed cavity 15 is provided with two fixed cavities 16 with upward openings, the two fixed cavities 16 are symmetrically distributed and arranged with the center line of the sealed cavity 15 as the symmetric center, the detector 14 is fixedly connected between the inner walls of the fixed cavities 16, two sliding grooves 82 with opposite openings are arranged in the left and right far away side walls of the sealed cavity 15, the two sliding grooves 82 are symmetrically distributed and arranged with the center line of the sealed cavity 15 as the symmetric center, an extension shaft 87 is fixedly connected to the left and right far away end of the parallel threaded shaft 17, and the outer peripheral surface of the extension shaft 87 is slidably connected to the inner walls of the sliding grooves 82, one end of the extension shaft 87, which is far away from the left end and the right end of the extension shaft, is fixedly connected with a side bevel gear 86, when blood of a diabetic flows into the sealed cavity 15 through the flow port 24 in the collection groove 29, the detector 14 detects blood sugar information of the diabetic and feeds back the blood sugar information, and through blood transportation and insulin injection, the parallel threaded shaft 17 rotates to drive the extension shaft 87 and the side bevel gear 86 to rotate, so that insulin is injected to the diabetic.

Beneficially, two embedded shafts 85 are rotatably connected to the rear wall of the collecting injection cavity 12, the two embedded shafts 85 are symmetrically distributed with the center line of the collecting injection cavity 12 as the symmetrical center, a front bevel gear 83 is fixedly connected to the front end of the embedded shaft 85, one end of the front bevel gear 83 close to each other is engaged with the rear end of the side bevel gear 86, a rear belt pulley 84 is fixedly connected to the outer peripheral surface of the embedded shaft 85, a front belt pulley 90 is fixedly connected to the outer peripheral surface of the symmetrical shaft 88, a vertical belt 19 is rotatably connected between the front belt pulley 90 and the rear belt pulley 84, an annular belt pulley 93 is fixedly connected to the outer peripheral surface of the embedded shaft 97, a transmission belt 91 is rotatably connected between the annular belt pulley 93 and the front belt pulley 90, the transmission belt 91 is located at the front side of the rotating ring 13, when collecting blood glucose information of a diabetic and injecting insulin to the patient, at this time, the side bevel gear 86 rotates to drive the front bevel gear 83 and the embedded shaft 85 to rotate, further drive the rear belt pulley 84 and the vertical belt 19 to rotate, further drive the front belt pulley 90 and the symmetric shaft 88 to rotate, further drive the transmission belt 91, the annular belt pulley 93 and the built-in shaft 97 to rotate, and further monitor blood glucose information and inject insulin to the patient.

The following will describe in detail the use steps of a reader device for collecting blood glucose information and controlling the amount of insulin to be injected with reference to fig. 1 to 8:

initially, the detection drive motor 81, the storage box 51, and the auxiliary storage box 58 are in a closed state, the blood retention block 78, the threaded moving block 75, the circulation tube 77, and the isolation storage box 74 are in a mutually close position, the pressing plate 34 is in a mutually close position, the magnetic plate 30 is in a closed state, the storage box 51 and the square plate 38 are in any position in the inner moving groove 20, and the auxiliary storage box 58 and the insertion sliding plate 73 are in any position in the outer moving groove 18.

When the insulin injection device is used, when insulin injection needs to be performed on a diabetic, the diabetic wears the reading box 11, the rotating ring 13 and the inner ring block 57 on the arm of the diabetic, inserts the arm between the injection needles 54, enables the injection needles 54 to abut against the skin of the arm of the diabetic, rotates through the symmetrical shaft 88, further drives the symmetrical gear 89 to rotate, further drives the rotating ring 13 to rotate, and when the rotating ring 13 rotates clockwise in the forward direction, further drives the moving wheel 71 to rotate clockwise in a single direction on the inner wall of the outer moving groove 18, drives the swinging rod 70 and the auxiliary pushing rod 63 to swing away from each other, further drives the auxiliary pushing shaft 68 to rotate, further enables the friction pushing blocks 66 to jack up and push each other, and when the rotating ring 13 rotates counterclockwise in the reverse direction, further drives the moving wheel 71 to rotate counterclockwise in a single direction on the inner wall of the outer moving groove 18 and drives the friction pushing blocks 66 to move away from each, thereby driving the moving wheel 71 to rotate and move on the inner wall of the outer moving groove 18, further driving the front axle 60 to rotate, further driving the auxiliary swinging rods 70 to swing away from each other, further driving the auxiliary pushing rods 63 to swing away from each other and extend on the inner wall of the auxiliary pushing cavity 64, further driving the auxiliary pushing axle 68 to rotate, further driving the friction moving block 66 to move closer to each other, further stretching the rear spring 67, further driving the interface tube 65 to extend closer to each other, further driving the front rod 61 to swing, further driving the front embedding axle 72 and the front torsion spring 59 to rotate, the torsion spring 59 enables the sliding plate 73 to stably move on the inner wall of the outer moving groove 18, further driving the embedding sliding plate 73 and the auxiliary storage box 58 to move on the inner wall of the outer moving groove 18, at this time, the insulin in the auxiliary storage box 58 is filled in the interface tube 65 and is ready for the injection of insulin to the patient, at this time, thereby driving the built-in gear 96 to rotate and further driving the inner ring block 57 to rotate, when the inner ring block 57 rotates clockwise, further driving the inner ring wheel 39 to rotate clockwise and unidirectionally, further driving the oscillating rod 46 and the push-off rod 36 to move away from each other and swing away, further driving the push shaft 37 to rotate, further driving the injection needles 54 to approach each other and be jacked up to start injection, when the injection needles 54 are finished, the inner ring block 57 rotates counterclockwise reversely, further driving the inner ring wheel 39 to rotate counterclockwise and unidirectionally, further driving the injection needles 54 to move close to each other and end injection, further driving the inner ring wheel 39 to rotate and move on the inner wall of the inner moving groove 20, further driving the front wheel 49 to rotate, further driving the oscillating rod 46 to swing away from each other, further driving the push-off rod 36 to move on the inner wall of the oscillating rod 46 and swing away from each other, further driving the push shaft 37 to rotate, and then drive syringe 54 and be close to the removal each other, and then make syringe 54 prick in diabetes patient's skin, and then the tensile spring 56 that is close to, square board 38's removal and then drive the swing of side pole 41, and then drive elasticity torsional spring 47, elasticity wheel 50 rotates, and then drive storage box 51 and remove, and then drive supplementary piece 43 and keep away from the removal each other, and then tensile return spring 42 with be close to spring 56, this moment butt joint pipe 44 carries out the butt joint of insulin with interface tube 65, this moment storage box 51 and the interior insulin of supplementary storage box 58 are through butt joint pipe 44, injection needle 55, interface tube 65, carry out the injection of insulin to the patient through injection needle 55 this moment.

When the inner ring block 57 and the rotating ring 13 need to adapt to different diabetic arm sizes, the inner ring block 57 moves to drive the magnetic slider 23 to move closer to each other, further compress the adaptive spring 22, further compress or stretch the short spring 92 and the long spring 94, further drive the sliding block 95 to move away from or close to each other, further adapt to different diabetic arm sizes, when the blood of the diabetic needs to be detected, the diabetic inserts fingers into the collection groove 29, further drive the magnetic plate 30 to move away from each other, further drive the swinging plate 28 and the embedding wheel 32 to rotate, when the fingers of the patient contact the blood taking needle 35, the blood taking needle 35 takes blood from the fingers of the patient, the blood of the patient is in the collection groove 29, further drive the squeezing plates 34 to move away from each other, further compress the soft spring 33, further drive the folding rod 27 to move in a folding manner, then drive folding wheel 25 and rotate, and then compress supporting spring 26, end the collection of patient's blood this moment, when the diabetes patient's blood in the collection groove 29 gets into the blood of upside and detains piece 78 upper end, start isolation mouth 80 this moment, and then drive parallel screw shaft 17 and rotate, and then drive blood and detain piece 78, screw thread movable block 75, runner pipe 77, keep apart storage box 74 and keep away from the removal each other, the blood of upside blood detaining piece 78 upper end this moment is detected blood sugar information, the blood that is detected this moment gets into through runner pipe 77 after detecting and keeps apart the storage box 74 and store and prevent biochemical pollution.

When the diabetic's blood flows into the sealed chamber 15 through the flow port 24 in the collection reservoir 29, at this time, the detector 14 detects the blood sugar information of the diabetic and feeds back the blood sugar information, and by the transport of blood, and the injection of insulin, the parallel threaded shaft 17 is rotated, thereby driving the extension shaft 87 and the side bevel gear 86 to rotate, further injecting insulin to the patient, when the blood sugar information of the diabetic patient is required to be collected and the insulin of the patient is injected, the side bevel gear 86 rotates at the moment, thereby driving the front bevel gear 83 and the embedded shaft 85 to rotate, further driving the rear belt pulley 84 and the vertical belt 19 to rotate, and then the front belt pulley 90 and the symmetry axis 88 are driven to rotate, and further the transmission belt 91, the annular belt pulley 93 and the built-in shaft 97 are driven to rotate, so that the blood glucose information monitoring and the insulin injection are carried out on the patient.

The invention has the beneficial effects that: the invention can be worn on some serious diabetics daily, so that the blood sugar of the patients is detected in real time, the amount of insulin required to be injected to the patients is controlled by monitoring the blood sugar, the diabetes condition of the patients is controlled by controlling the blood sugar of the diabetics, and the normal life of the serious diabetics is ensured.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a gather reader device of blood sugar information control injection insulin volume, includes reading the case, its characterized in that: a collection injection cavity with a forward opening is arranged in the reading box, a limiting groove with a forward opening is arranged in the rear wall of the collection injection cavity, two symmetrical shafts are rotationally connected in the rear wall of the collection injection cavity, the two symmetrical shafts are symmetrically distributed in a bilateral mode by taking the center line of the collection injection cavity as the symmetrical center, symmetrical gears are fixedly connected to the symmetrical shafts, a rotating ring is rotationally arranged in the collection injection cavity, the outer peripheral surface of the rotating ring is slidably connected to the inner wall of the limiting groove, the left end and the right end of the rotating ring are meshed with the symmetrical gears on the two sides, an outer moving groove with an opening facing the center of the rotating ring is arranged in the inner wall of the rotating ring, the opening of the outer moving groove is forward, three embedded sliding plates are slidably connected to the inner wall of the outer moving groove, an auxiliary storage box is fixedly connected to the front ends of the embedded sliding, the outer peripheral surface of the preposed embedded shaft is fixedly connected with a preposed torsion spring, the outer peripheral surface of the preposed torsion spring is connected with a preposed rod, one end of the preposed rod, far away from the embedded sliding plate, is rotatably connected with a movable wheel, the outer peripheral surface of the preposed shaft is meshed and connected with the inner wall of the outer moving groove, the outer peripheral surface of the preposed shaft is fixedly connected with a preposed vertical rod, a sliding cavity with opposite openings is arranged in the preposed vertical rod, the inner wall of the sliding cavity is slidably connected with a push rod, the rear end surface of the push rod is rotatably connected with a hinged shaft, the auxiliary storage boxes are mutually close to one end and fixedly connected with a connector tube, one end of the embedded sliding plate, close to the center of the rotating ring, is fixedly connected with a postposition spring, one end of the postposition spring, close to the center of the rotating ring, the rear end of the mouthpiece is slidably connected to the front end face of the rear push block, two built-in shafts are rotatably connected to the rear wall of the outer moving groove, the two built-in shafts are arranged in a bilateral symmetrical manner by taking the central line of the collection injection cavity as a symmetrical center, built-in gears are fixedly connected to the outer peripheral faces of the built-in shafts, an inner ring block is meshed and connected between the built-in gears, an inner moving groove with an opening facing the center of the rotating ring is formed in the inner ring block, three square plates are slidably connected to the inner wall of the inner moving groove, a storage box is fixedly connected to the front ends of the square plates, two elastic wheels are rotatably connected to the two end faces of the storage box, the two elastic wheels are arranged in a bilateral symmetrical manner by taking the central line of the square plates as a symmetrical center, elastic torsion springs are fixedly connected to, the end, far away from each other, of each side rod is rotatably connected with a front wheel, the outer peripheral surface of each front wheel is rotatably connected with an inner ring wheel, the outer peripheral surface of each inner ring wheel is meshed and connected with the inner wall of the inner moving groove, the outer peripheral surface of the front side of each front wheel is fixedly connected with a front wheel, the inner surface of the swinging rod is internally provided with a pushing cavity with opposite openings, the inner wall of the pushing cavity is slidably connected with a pushing rod, the rear end surface of the pushing rod is rotatably connected with a pushing shaft, the storage boxes are fixedly connected with injection needle tubes near one ends, the ends, far away from each other, of the storage boxes are fixedly connected with butt joint tubes, the ends, far away from each other, of the square plates are fixedly connected with return springs, the ends, far away from each other, of the return springs are fixedly connected with auxiliary blocks, the rear ends, the rear end of the injection needle tube is connected to the front end face of the injection needle in a sliding mode, and the peripheral face of the rear end of the pushing shaft is connected to the front end face of the injection needle in a rotating mode.

2. The reader device for collecting blood glucose information to control the amount of insulin to be injected according to claim 1, wherein: the inner ring block is connected with the inner ring block through a rotating shaft, the outer peripheral face of the inner shaft is connected with a sliding block in a rotating mode, the sliding block is far away from one end of a fixedly connected long spring, the sliding block is close to one end of a fixedly connected short spring, the short spring is close to one end of a fixedly connected short spring, the inner ring block is far away from one end of the inner ring block, the long spring is fixedly connected to the inner wall of.

3. The reader device for collecting blood glucose information to control the amount of insulin to be injected according to claim 1, wherein: the upper end of the reading box is provided with an acquisition groove with an upward opening, the left wall of the acquisition groove is fixedly connected with two folding rods, the two folding rods are arranged in an up-and-down symmetrical distribution by taking the central line of the acquisition groove as a symmetrical center, a folding wheel is rotatably connected between the folding rods, the left wall of the acquisition groove is fixedly connected with a supporting spring, the right end of the supporting spring is connected to the outer peripheral surface of the folding wheel in a sliding manner, the right wall of the acquisition groove is fixedly connected with a soft spring, the left end of the soft spring and the right end of the folding rods are fixedly connected with an extrusion plate, the right end of the extrusion plate at the left side is fixedly connected with a blood taking needle, the front end surface of the acquisition groove is rotatably connected with two embedding wheels, the two embedding wheels are arranged in an up-and-down symmetrical distribution by taking the central line of the acquisition groove as a symmetrical center, the magnetic force plates are connected to the inner wall of the magnetic force cavity in a sliding mode and are connected magnetically.

4. The reader device for collecting blood glucose information to control the amount of insulin to be injected according to claim 1, wherein: a sealed cavity is arranged on the upper side of the collection injection cavity, a detection driving motor is fixedly connected between the front wall and the rear wall of the sealed cavity, two partition plates are fixedly connected between the front wall and the rear wall of the sealed cavity, the two partition plates are symmetrically distributed and arranged in a bilateral mode by taking the central line of the sealed cavity as a symmetric center, isolation ports with opposite openings are arranged in the partition plates, one ends of the detection driving motor, which are far away from the left side and the right side, are dynamically connected with two parallel threaded shafts, the two parallel threaded shafts are symmetrically distributed and arranged in a bilateral mode by taking the central line of the detection driving motor as a symmetric center, the outer peripheral surfaces of the parallel threaded shafts are slidably connected onto the inner wall of the isolation ports, threaded moving blocks are connected onto the outer peripheral surfaces of the parallel threaded shafts in a threaded mode, one ends of the threaded moving blocks, which are far, the blood is detained fixedly connected with two between the piece the runner tube, two the runner tube uses blood is detained a central line and is set up as the bilateral symmetry of center of symmetry distribution, and the downside blood is detained a piece lower extreme fixedly connected with and is kept apart the storage box.

5. The reader device for collecting blood glucose information to control the amount of insulin to be injected according to claim 4, wherein: the upper wall of the sealed cavity is provided with two flow ports with upward openings, the two flow ports are distributed and arranged in bilateral symmetry by taking the central line of the sealed cavity as a symmetry center, the flow port is communicated with the collecting groove and the sealing cavity, the upper wall of the sealing cavity is provided with two fixing cavities with upward openings, the two fixing cavities are symmetrically distributed and arranged in a left-right mode by taking the central line of the sealing cavity as a symmetric center, a detector is fixedly connected between the inner walls of the fixed cavities, two sliding grooves with back-to-back openings are arranged in the left and right far away side walls of the sealed cavity, the two sliding grooves are symmetrically distributed with the central line of the sealed cavity as the symmetric center, one end of the parallel threaded shaft is fixedly connected with an extension shaft which is far away from the left and right sides of the parallel threaded shaft, the outer peripheral surface of the extension shaft is connected to the inner wall of the sliding groove in a sliding mode, and one end of the extension shaft is fixedly connected with a side bevel gear which is far away from the left and right sides of the extension shaft.

6. The reader device for collecting blood glucose information to control the amount of insulin to be injected according to claim 1, wherein: the collecting injection cavity comprises a collecting injection cavity body and is characterized in that two embedding shafts are rotationally connected to the rear wall of the collecting injection cavity body, the two embedding shafts are arranged in a bilateral symmetry mode by taking the central line of the collecting injection cavity body as a symmetry center, a front bevel gear is fixedly connected to the front end of each embedding shaft, one end, close to each other, of each front bevel gear is meshed with the rear end of each side bevel gear, a rear belt pulley is fixedly connected to the outer peripheral face of each embedding shaft, a front belt pulley is fixedly connected to the outer peripheral face of each symmetry shaft, a vertical belt is rotationally connected between each front belt pulley and the corresponding rear belt pulley, an annular belt pulley is fixedly connected to the outer peripheral face of each embedding shaft.