CN113916480A

CN113916480A - Mechanical vibration detection device for insulin bottle

Info

Publication number: CN113916480A
Application number: CN202111518844.1A
Authority: CN
Inventors: 符箐
Original assignee: Shandong Kerui Medical Supplies Co ltd
Current assignee: Shandong Kerui Medical Supplies Co ltd
Priority date: 2021-12-14
Filing date: 2021-12-14
Publication date: 2022-01-11
Anticipated expiration: 2041-12-14
Also published as: CN113916480B

Abstract

The invention discloses a mechanical vibration detection device for an insulin bottle, which relates to the field of vibration detection of the insulin bottle and comprises the following components: the insulin bottle comprises two driving mechanisms and an insulin bottle body, wherein the two driving mechanisms are symmetrically arranged, the insulin bottle body is arranged between the two driving mechanisms, and each driving mechanism comprises a fixed sleeve in a hollow rectangular structure, an air cylinder arranged in the inner cavity of the fixed sleeve, a telescopic rod arranged at the output end of the air cylinder and clamping plates arranged at the end parts of the two telescopic rods; and the pushing mechanism with the one-way pushing function is arranged at one end of the driving mechanism. The pushing mechanism, the one-way mechanism and the rotating mechanism are arranged and matched with each other, so that the insulin bottle body can be vibrated leftwards and rightwards and can be rotated unidirectionally, and the vibration detection effect can be better realized; through setting up slewing mechanism and electrically conductive mechanism, realize the dislocation auto-lock of device in the rotation process to after rotating complete a plurality of weeks, realize the function of unblock and suggestion.

Description

Mechanical vibration detection device for insulin bottle

Technical Field

The invention relates to the field of detection of insulin bottles, in particular to a mechanical vibration detection device for an insulin bottle.

Background

Insulin is a protein hormone secreted by the beta cells of the islets of langerhans in the pancreas stimulated by endogenous or exogenous substances such as glucose, lactose, ribose, arginine, glucagon, etc. Insulin is the only hormone in the body which reduces blood sugar and promotes the synthesis of glycogen, fat and protein. Exogenous insulin is mainly used for treating diabetes, and an insulin bottle body assembled in an insulin pen rack is clamped into the insulin pen rack during injection, and a top end piston of the insulin bottle body is pushed by a push rod to ensure that insulin solution in the insulin bottle body is injected into a receptor under the action of pressure.

However, at present, when sampling inspection is performed after insulin is packaged, the problem that whether leakage exists in a vibration environment cannot be effectively checked through a vibration means.

Disclosure of Invention

The invention aims to: in order to solve the above-mentioned problems in the background art, a mechanical vibration detecting device for an insulin bottle is provided.

In order to achieve the purpose, the invention provides the following technical scheme: a device for detecting mechanical vibration of an insulin bottle, comprising:

the insulin bottle comprises two driving mechanisms and an insulin bottle body, wherein the two driving mechanisms are symmetrically arranged, the insulin bottle body is arranged between the two driving mechanisms, and each driving mechanism comprises a fixed sleeve in a hollow rectangular structure, an air cylinder arranged in the inner cavity of the fixed sleeve, a telescopic rod arranged at the output end of the air cylinder and clamping plates arranged at the end parts of the two telescopic rods;

the pushing mechanism with a one-way pushing function is arranged at one end of the driving mechanism;

the one-way mechanism is arranged on one side of the pushing mechanism and is used for converting the pushing force of the pushing mechanism into one-way torque;

the rotating mechanism is arranged in the clamping plates and is meshed with the one-way mechanism, and the rotating mechanism is used for locking and unlocking the two clamping plates;

and the prompting mechanism is arranged in the clamping plate and at the top end of the rotating mechanism and used for prompting the locking and unlocking states of the rotating mechanism.

As a still further scheme of the invention: the pushing mechanism is arranged on the connecting frame on one side of the driving mechanism, the end portion of the connecting frame is connected with a pushing rack in a rotating mode, connecting shafts connected with the connecting frame in a rotating mode are arranged at the upper end and the lower end of the pushing rack, a torsion spring is arranged on the outer side of each connecting shaft, and a limiting baffle is arranged on one side, located on the pushing rack, of the end portion of the connecting frame.

As a still further scheme of the invention: the one-way mechanism comprises a driving gear rotationally connected with the clamping plate, a ratchet meshed with the pushing rack is connected above the driving gear, the ratchet and the driving gear are connected with a clamping block through a clamping groove, the clamping groove is formed in the top end of the driving gear, and the clamping block is arranged at the bottom end of the ratchet and clamped with the clamping groove.

As a still further scheme of the invention: the rotating mechanism comprises a rotating gear meshed with the driving gear, the inner wall of the rotating gear is fixedly connected with a rotating frame which is rotatably connected with the clamping plate, and the inner wall of the rotating frame is fixedly connected with a rotating ring which penetrates through the inner cavity of the clamping plate.

As a still further scheme of the invention: the prompting mechanism comprises an extrusion column fixedly mounted on the top end of the rotating frame and a ring groove formed in the clamping plate, a reset spring is connected to the top end of the inner wall of the ring groove, the bottom end of the reset spring is connected with a lifting block, a limiting plate is arranged on the outer wall of the lifting block, a limiting groove for the limiting plate to move up and down is formed in the position where the clamping plate is connected with the limiting plate, a second conducting strip is mounted on the top end of the limiting plate, and a first conducting strip is arranged on the top end of the inner wall of the limiting groove.

As a still further scheme of the invention: the first conducting strip is electrically connected with an external power supply through a wire, the second conducting strip is firstly trained with an external indicating lamp through a wire, the indicating lamp is embedded in the outer wall of one clamping plate, and the indicating lamp is electrically connected with the external power supply through a wire.

As a still further scheme of the invention: the bottom of drive gear is provided with the pivot, the pivot with the protruding portion of pinch-off blades outer wall passes through the bearing and rotates the connection.

As a still further scheme of the invention: the tooth block of the outer wall of the ratchet and the tooth block of the outer wall of the pushing rack are both in a right-angled triangle structure, and the right-angled edges of the tooth blocks of the outer wall of the pushing rack are mutually attached.

Compared with the prior art, the invention has the beneficial effects that:

1. the pushing mechanism, the one-way mechanism and the rotating mechanism are arranged and matched with each other, so that the insulin bottle body is vibrated leftwards and rightwards and is rotated unidirectionally, and the vibration detection effect is better realized;

2. through setting up slewing mechanism and electrically conductive mechanism, realize the dislocation auto-lock of device in the rotation process to after rotating complete a plurality of weeks, realize the function of unblock and suggestion.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection between the rotating mechanism and the one-way mechanism of the present invention;

FIG. 3 is a schematic view of the ratchet mounting of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 2 according to the present invention;

fig. 5 is a schematic structural diagram of the pushing mechanism of the present invention.

In the figure: 1. a drive mechanism; 101. fixing the sleeve; 102. a cylinder; 103. a telescopic rod; 2. a pushing mechanism; 201. a connecting frame; 202. pushing the rack; 203. a torsion spring; 204. a connecting shaft; 205. a limit baffle; 3. a one-way mechanism; 301. a ratchet; 302. a drive gear; 303. a clamping groove; 304. a clamping block; 4. a clamping plate; 5. a rotating mechanism; 501. a rotating gear; 502. a rotating frame; 503. a rotating ring; 6. a prompting mechanism; 601. extruding the column; 602. an annular groove; 603. a lifting block; 604. a return spring; 605. a limiting plate; 606. a limiting groove; 607. a first conductive sheet; 608. and a second conductive sheet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, in an embodiment of the present invention, an apparatus for detecting mechanical vibration of an insulin bottle includes: the insulin bottle comprises two driving mechanisms 1 which are symmetrically arranged and an insulin bottle body which is arranged between the two driving mechanisms 1, wherein each driving mechanism 1 comprises a fixed sleeve 101 which is of a hollow rectangular structure, an air cylinder 102 which is arranged in the inner cavity of the fixed sleeve 101, an expansion link 103 which is arranged at the output end of the air cylinder 102 and a clamping plate 4 which is arranged at the end part of each expansion link 103; the pushing mechanism 2 with the one-way pushing function is arranged at one end of the driving mechanism 1; the one-way mechanism 3 is arranged on one side of the pushing mechanism 2 and is used for converting the pushing force of the pushing mechanism 2 into one-way torque; the rotating mechanism 5 is arranged in the clamping plates 4 and is meshed with the one-way mechanism 3, and is used for locking and unlocking the two clamping plates 4; and the prompt mechanism 6 is arranged in the clamping plate 4 and at the top end of the rotating mechanism 5 and is used for prompting the locking and unlocking states of the rotating mechanism 5.

In this embodiment: when the tightness of the insulin bottle is detected, the driving mechanisms 1 are firstly made to move oppositely, at the moment, the two pushing mechanisms 2 are pulled to rotate outwards, the driving mechanisms 1 drive the clamping plates 4 to move, the clamping plates 4 drive the rotating mechanisms 5 to move until the insulin bottle is effectively clamped, then the force applied to the two pushing mechanisms 2 is removed, the pushing mechanisms 2 reset, at the moment, the two pushing mechanisms 2 are not in contact with the one-way mechanism 3, then the two driving mechanisms 1 are made to extend one by one and shorten the other synchronously, at the moment, the clamping plates 4 are driven to shake left and right, basis takes place with pushing mechanism 2 at this in-process check mechanism 3 for check mechanism 3 carries out unidirectional rotation, and check mechanism 3 drives slewing mechanism 5 and rotates, and slewing mechanism 5 drives the insulin bottle and rotates, realizes that the insulin bottle rotates when the roll.

Please refer to fig. 1, fig. 2, fig. 3 and fig. 5, the pushing mechanism 2 includes a connecting frame 201 disposed at one side of the driving mechanism 1, the end of the connecting frame 201 is rotatably connected with a pushing rack 202, the upper and lower ends of the pushing rack 202 are both provided with a connecting shaft 204 rotatably connected with the connecting frame 201, the outer side of the connecting shaft 204 is provided with a torsion spring 203, and the end of the connecting frame 201 at one side of the pushing rack 202 is provided with a limit baffle 205.

In this embodiment: when the pushing mechanism 2 and the one-way mechanism 3 are in a state from non-meshing to meshing, the right-angle edge of the tooth block on the outer wall of the pushing rack 202 is pushed against the right-angle edge of the tooth block on the outer wall of the ratchet 301, the ratchet 301 rotates to drive the driving gear 302 to rotate through the clamping block 304 and the clamping groove 303, when the pushing mechanism 2 and the one-way mechanism 3 are in a state from the meshing state to the non-meshing state, the inclined surface on the tooth block on the outer wall of the ratchet 301 is contacted with the inclined surface on the tooth block on the outer wall of the pushing rack 202, the rack 202 is pushed to rotate under the action of the extrusion force, in the process, the rack 202 is pushed to rotate by taking the connecting shaft 204 as the axis, the torsion spring 203 is twisted, because the pushing mechanism 2 and the one-way mechanism 3 are provided with two, when one pushing mechanism 2 is separated from the one-way mechanism 3, the other pushing mechanism 2 is just meshed with the one-way mechanism 3, so that the one-way mechanism 3 drives the rotating mechanism 5 to rotate only in one direction.

Please refer to fig. 1, 2 and 3, the one-way mechanism 3 includes a driving gear 302 rotatably connected to the clamping plate 4, a ratchet 301 engaged with the pushing rack 202 is connected above the driving gear 302, the ratchet 301 and the driving gear 302 are connected to an engaging block 304 through an engaging groove 303, the engaging groove 303 is formed at the top end of the driving gear 302, the engaging block 304 is disposed at the bottom end of the ratchet 301 and is engaged with the engaging groove 303; the tooth block of ratchet 301 outer wall and the tooth block that promotes rack 202 outer wall all are the right triangle structure, and ratchet 301 and the tooth block right-angle side of promoting rack 202 outer wall laminate each other.

In this embodiment: the one-way mechanism 3 is continuously engaged and connected with the two pushing mechanisms 2 respectively in the rotating process, so that the one-way mechanism 3 can only rotate in one direction.

Please refer to fig. 2 and fig. 3, the rotating mechanism 5 includes a rotating gear 501 engaged with the driving gear 302, a rotating frame 502 rotatably connected with the clamping plate 4 is fixedly connected to an inner wall of the rotating gear 501, and a rotating ring 503 penetrating to an inner cavity of the clamping plate 4 is fixedly connected to an inner wall of the rotating frame 502; the bottom end of the driving gear 302 is provided with a rotating shaft, and the rotating shaft is rotatably connected with the protruding part of the outer wall of the clamping plate 4 through a bearing.

In this embodiment: under the driving action of the one-way mechanism 3, the rotating mechanism 5 starts to rotate, the rotating gear 501 drives the rotating frame 502 to rotate inside the two clamping plates 4, the rotating frame 502 is dislocated with the clamping plates 4 in the rotating process, the locking function is realized, the two clamping plates 4 cannot be separated in the process until the rotating frame 502 completely rotates for a circle, the two clamping plates 4 can be separated after the rotating frame returns to the initial position, and in the rotating process of the rotating frame 502, the rotating ring 503 and the clamping plates 4 are dislocated, and the locking function is realized.

Please refer to fig. 4, the prompting mechanism 6 includes an extruding column 601 fixedly installed at the top end of the rotating frame 502 and an annular groove 602 formed inside the clamping plate 4, the top end of the inner wall of the annular groove 602 is connected with a return spring 604, the bottom end of the return spring 604 is connected with a lifting block 603, the outer wall of the lifting block 603 is provided with a limiting plate 605, a limiting groove 606 for the limiting plate 605 to move up and down is formed at the connecting position of the clamping plate 4 and the limiting plate 605, the top end of one limiting plate 605 is installed with a second conductive sheet 608, and the top end of the inner wall of the limiting groove 606 is provided with a first conductive sheet 607; the first conductive sheet 607 is electrically connected to an external power source through a wire, the second conductive sheet 608 is first wired to an external indicator light embedded in an outer wall of the clamping plate 4, and the indicator light is electrically connected to the external power source through a wire.

In this embodiment: the extrusion column 601 in the prompt mechanism 6 rotates along with the rotation of the rotating frame 502, the extrusion column 601 is divided into two states, which are respectively located under the lifting block 603 and under the lifting block 603, when the extrusion column 601 is staggered from under the lifting block 603, the reset spring 604 resets to drive the lifting block 603 to move downwards, at this time, the lifting block 603 drives the second conductive sheet 608 to descend through the limiting plate 605, so that the first conductive sheet 607 is separated from the second conductive sheet 608, so that the loop is disconnected, at this time, the indicator lamp cannot be lighted, after the extrusion column 601 finishes rotating for one circle, the bottom spherical surface of the extrusion column 601 is forced to move upwards, so that the first conductive sheet 607 is in contact with the second conductive sheet 608, so that the loop is connected, the indicator lamp is lighted, and an electric signal is sent to the controller, and the controller control device stops running.

The working principle is as follows: firstly, the driving mechanism 1 is made to move in opposite directions, at the same time, the two pushing mechanisms 2 are pulled to rotate outwards, the driving mechanism 1 drives the clamping plate 4 to move, the clamping plate 4 drives the rotating mechanism 5 to move until the insulin bottle body is effectively clamped, then the force applied on the two pushing mechanisms 2 is removed, the pushing mechanisms 2 reset, at the same time, the two pushing mechanisms 2 are not contacted with the one-way mechanism 3, then the two driving mechanisms 1 are made to extend and shorten synchronously, at the same time, the clamping plate 4 can be driven to shake left and right, when the pushing mechanisms 2 and the one-way mechanism 3 are in a non-meshed state to a meshed state, at the moment, right-angle edge ratchets of outer-wall blocks of the rack 202 are pushed to abut against right-angle edges of outer-wall blocks of the rack 301, at the moment, the rotation of the rack 301 is made to rotate, the rack 301 drives the driving gear 302 to rotate through the clamping block 304 and the clamping groove 303, and when the pushing mechanisms 2 and the one-way mechanism 3 are in a non-meshed state to a non-meshed state, at the moment, the inclined plane on the tooth block on the outer wall of the ratchet 301 is contacted with the inclined plane of the tooth block on the outer wall of the pushing rack 202, the pushing rack 202 is forced to rotate under the action of extrusion force, in the process, the pushing rack 202 is pushed to rotate by taking the connecting shaft 204 as the axis, and the torsion spring 203 is twisted, because two pushing mechanisms 2 and two one-way mechanisms 3 are arranged, when one pushing mechanism 2 is separated from one-way mechanism 3, the other pushing mechanism 2 is just meshed with the one-way mechanism 3, the one-way mechanism 3 drives the rotating mechanism 5 to rotate only in one direction, under the driving action of the one-way mechanism 3, the rotating mechanism 5 starts to rotate, the rotating gear 501 drives the rotating frame 502 to rotate inside the two clamping plates 4, the rotating frame 502 is dislocated with the clamping plates 4 in the rotating process, the locking function is realized, in the process, the two clamping plates 4 cannot be separated until the rotating frame 502 rotates for one circle completely, when the rotating frame 502 rotates, the rotating ring 503 and the clamping plates 4 are dislocated to achieve a locking function, the squeezing column 601 in the prompting mechanism 6 rotates along with the rotation of the rotating frame 502, the squeezing column 601 is divided into two states, namely, the position under the lifting block 603 and the position under the non-lifting block 603, when the squeezing column 601 is dislocated from the position under the lifting block 603, the return spring 604 is reset to drive the lifting block 603 to move downwards, at this time, the lifting block 603 drives the second conducting plate 608 to descend through the limiting plate 605, so that the first conducting plate 607 is separated from the second conducting plate 608, so that the loop is disconnected, at this time, the indicator light cannot be lighted up, after the squeezing column 601 rotates for a circle, the spherical surface at the bottom end of the squeezing column 601 is forced to move upwards, so that the first conducting plate 607 is contacted with the second conducting plate 608, so that the loop is connected, the pilot lamp lights to the signal of telecommunication sends to the controller, controller controlling means shut down, and 5 realization unblock functions of slewing mechanism simultaneously, has realized through above-mentioned process that the insulin bottle of mechanical vibration in-process carries out rotatory function, realization detection effect that can be better, after the detection, through the visual observation, whether have liquid leakage, can make the judgement to the leakproofness of spot check sample.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. A mechanical vibration detection device for an insulin bottle, comprising:

the insulin bottle comprises two driving mechanisms (1) which are symmetrically arranged and an insulin bottle body which is arranged between the two driving mechanisms (1), wherein each driving mechanism (1) comprises a fixed sleeve (101) which is of a hollow rectangular structure, an air cylinder (102) which is arranged in the inner cavity of the fixed sleeve (101), an expansion link (103) which is arranged at the output end of the air cylinder (102) and a clamping plate (4) which is arranged at the end part of each expansion link (103);

the pushing mechanism (2) with a one-way pushing function is arranged at one end of the driving mechanism (1);

the one-way mechanism (3) is arranged on one side of the pushing mechanism (2) and is used for converting the pushing force of the pushing mechanism (2) into one-way torque;

the rotating mechanism (5) is arranged in the clamping plates (4) and is meshed with the one-way mechanism (3) and used for locking and unlocking the two clamping plates (4);

and the prompt mechanism (6) is arranged in the clamping plate (4) and at the top end of the rotating mechanism (5) and is used for prompting the locking and unlocking states of the rotating mechanism (5).

2. The device for detecting the mechanical vibration of the insulin bottle according to claim 1, wherein the pushing mechanism (2) comprises a connecting frame (201) arranged on one side of the driving mechanism (1), the end of the connecting frame (201) is rotatably connected with a pushing rack (202), connecting shafts (204) rotatably connected with the connecting frame (201) are arranged at the upper end and the lower end of the pushing rack (202), torsion springs (203) are arranged on the outer sides of the connecting shafts (204), and a limit baffle (205) is arranged on one side, located on the pushing rack (202), of the end of the connecting frame (201).

3. The device for detecting the mechanical vibration of the insulin bottle as claimed in claim 2, wherein the one-way mechanism (3) comprises a driving gear (302) rotatably connected with the clamping plate (4), a ratchet (301) meshed with the pushing rack (202) is connected above the driving gear (302), the ratchet (301) and the driving gear (302) are connected with a clamping block (304) through a clamping groove (303), the clamping groove (303) is formed at the top end of the driving gear (302), and the clamping block (304) is arranged at the bottom end of the ratchet (301) and is mutually clamped with the clamping groove (303).

4. The device for detecting the mechanical vibration of the insulin bottle as claimed in claim 3, wherein the rotating mechanism (5) comprises a rotating gear (501) engaged with the driving gear (302), a rotating frame (502) rotatably connected with the clamping plate (4) is fixedly connected to the inner wall of the rotating gear (501), and a rotating ring (503) penetrating through the inner cavity of the clamping plate (4) is fixedly connected to the inner wall of the rotating frame (502).

5. The device for detecting the mechanical vibration of the insulin bottle according to claim 4, wherein the prompting mechanism (6) comprises an extrusion column (601) fixedly mounted at the top end of the rotating frame (502) and an annular groove (602) formed inside the clamping plate (4), the top end of the inner wall of the annular groove (602) is connected with a return spring (604), the bottom end of the return spring (604) is connected with a lifting block (603), the outer wall of the lifting block (603) is provided with a limiting plate (605), a limiting groove (606) for the limiting plate (605) to move up and down is formed at the connecting position of the clamping plate (4) and the limiting plate (605), a second conducting plate (608) is mounted at the top end of the limiting plate (605), and a first conducting plate (607) is arranged at the top end of the inner wall of the limiting groove (606).

6. The device for detecting the mechanical vibration of the insulin bottle as claimed in claim 5, wherein the first conductive sheet (607) is electrically connected with an external power source through a wire, the second conductive sheet (608) is firstly trained with an external indicator light through a wire, the indicator light is embedded in the outer wall of one of the clamping plates (4), and the indicator light is electrically connected with the external power source through a wire.

7. The device for detecting the mechanical vibration of the insulin bottle as claimed in claim 3, wherein the bottom end of the driving gear (302) is provided with a rotating shaft, and the rotating shaft is rotatably connected with the protruding part of the outer wall of the clamping plate (4) through a bearing.

8. The mechanical vibration detection device for the insulin bottle as claimed in claim 3, wherein the tooth blocks on the outer wall of the ratchet (301) and the tooth blocks on the outer wall of the pushing rack (202) are in a right-angled triangle structure, and the right-angled edges of the tooth blocks on the outer walls of the ratchet (301) and the pushing rack (202) are attached to each other.