CN111265063B

CN111265063B - High-rise drawer of traditional chinese medicine cabinet is with supplementary device of getting it filled

Info

Publication number: CN111265063B
Application number: CN202010192397.4A
Authority: CN
Inventors: 刘恣意
Original assignee: Anhui He Ji Tang Traditional Chinese Medicine Decoction Pieces Co ltd
Current assignee: ANHUI HE JI TANG TRADITIONAL CHINESE MEDICINE DECOCTION PIECES Co.,Ltd.
Priority date: 2020-03-18
Filing date: 2020-03-18
Publication date: 2020-10-02
Anticipated expiration: 2040-03-18
Also published as: GB202010197D0; CN111265063A

Abstract

An auxiliary medicine taking device for a high-rise drawer of a traditional Chinese medicine cabinet; this device includes the main part case, the main part case just is located well medical cabinet with ceiling fixed connection, the main part incasement is equipped with the forward slip chamber of opening, the first rack of slip chamber rear end wall fixedly connected with, slip intracavity sliding fit is connected with the slip case, be equipped with the lift transmission chamber in the slip case, lift transmission chamber left and right sides symmetry is equipped with the wire wheel chamber, realize the affirmation to the drawer position through pasting the location sticker, thereby make the lift case can move just to the dead ahead of the drawer that needs to get it filled, it descends to drive the drawer through the loading board, the drawer position is unchangeable when the fixed assurance of lift case resets, prevent that the drawer from colliding with well medical cabinet, install realization location and transmission on the drawer through sticker and rack simultaneously, avoid the holistic change of well medical cabinet, the universality has been increased.

Description

High-rise drawer of traditional chinese medicine cabinet is with supplementary device of getting it filled

Technical Field

The invention relates to the technical field of traditional Chinese medicine correlation, in particular to an auxiliary medicine taking device for a high-rise drawer of a traditional Chinese medicine cabinet.

Background

Traditional Chinese medicine is regarded as a college for thousands of years and is trusted by people, because the quantity of traditional Chinese medicines is huge, the traditional Chinese medicine cabinet used in a traditional Chinese medicine store is often higher in layer number in order to ensure the storage capacity, and the traditional Chinese medicines in a high-rise drawer are very inconvenient to take.

Disclosure of Invention

Aiming at the technical defects, the invention provides an auxiliary medicine taking device for a high-rise drawer of a traditional Chinese medicine cabinet, which can overcome the defects.

The invention relates to an auxiliary medicine taking device for a high-rise drawer of a traditional Chinese medicine cabinet, which comprises a main body box, wherein the main body box is fixedly connected with a ceiling and is positioned right above the traditional Chinese medicine cabinet, a sliding cavity with a forward opening is arranged in the main body box, the rear end wall of the sliding cavity is fixedly connected with a first rack, the sliding cavity is connected with a sliding box in a sliding fit manner, a lifting transmission cavity is arranged in the sliding box, the left side and the right side of the lifting transmission cavity are symmetrically provided with wire wheel cavities, the right side of the lifting transmission cavity is provided with a first motor which is fixedly connected with the main body box and is positioned on the upper side of the wire wheel cavity on the right side, the left side of the lifting transmission cavity is provided with a sliding transmission cavity which is positioned on the upper side of the wire wheel cavity on the left side and extends backwards, the right side of the sliding transmission cavity is provided, the line wheel intracavity be equipped with first driven shaft fixed connection's first line wheel, the first stay cord of fixedly connected with on the line wheel, first stay cord downwardly extending to external world and other end fixedly connected with have the lift case, be equipped with the bearing chamber that link up around opening and down in the lift case, bearing chamber left side intercommunication is equipped with centrifugal wheel chamber, bearing chamber upside is equipped with the bearing power chamber, bearing power chamber upside is equipped with the bearing transmission chamber, bearing transmission chamber upside is equipped with flexible transmission chamber, bearing transmission chamber downside be equipped with lift case fixed connection just is located bear the left second motor in power chamber.

On the basis of the technical scheme, the lifting transmission cavity comprises a first driving shaft which is connected with the left end wall of the lifting transmission cavity in a rotating fit manner, the first driving shaft extends leftwards into the sliding transmission cavity and rightwards to be fixedly connected with the left end face of the first motor, a first driving belt positioned in the lifting transmission cavity is connected between the first driving shaft and the first driven shaft in a power matching way, the left side of the lifting transmission cavity is communicated with an upper magnetic block cavity positioned between the first driving shaft and the first driven shaft, the upper magnetic block cavity is connected with an upper magnetic block which can tighten the first transmission belt in a sliding fit way, a first compression spring is fixedly connected between the left end surface of the upper magnetic block and the left end wall of the upper magnetic block cavity, and the right end wall of the lifting transmission cavity is fixedly connected with a first electromagnet corresponding to the upper side magnetic block.

On the basis of the technical scheme, the sliding power cavity comprises a second driven shaft, the second driven shaft is connected with the bottom end wall of the sliding power cavity in a rotating fit manner and extends upwards into the sliding power cavity, a transmission gear which is fixedly connected with the second driven shaft and is meshed with the first rack is arranged in the sliding power cavity, a first bevel gear which is fixedly connected with the second driven shaft is arranged on the upper side of the transmission gear, a third driven shaft which extends rightwards into the sliding power cavity and extends leftwards into the sliding transmission cavity is connected with the left end wall of the sliding power cavity in a rotating fit manner, a second bevel gear which is fixedly connected with the third driven shaft and is meshed with the first bevel gear is arranged in the sliding power cavity, and a second transmission belt which is positioned in the sliding transmission cavity is connected between the third driven shaft and the first driving shaft in a power fit manner, the sliding transmission cavity is communicated with a sliding tightening block cavity between the third driven shaft and the first driving shaft, a sliding tightening block capable of tightening the second driving belt is connected in the sliding tightening block cavity in a sliding fit mode, a second compression spring is fixedly connected between the left end face of the sliding tightening block and the left end wall of the sliding tightening block cavity, a second pull rope is fixedly connected to the left end face of the sliding tightening block, and the other end of the second pull rope is fixedly connected with the left end face of the upper side magnetic block.

On the basis of the technical scheme, the bearing transmission cavity comprises a second driving shaft, the second driving shaft is connected with the upper end surface of the bearing transmission cavity in a rotating fit manner, the second driving shaft extends upwards into the telescopic transmission cavity and downwards extends to be fixedly connected with the upper end surface of a second motor, the lower end wall of the bearing transmission cavity is connected with a fourth driven shaft which extends upwards from the right to the bearing transmission cavity and downwards extends to the bearing power cavity in a rotating fit manner, a third transmission belt is connected between the fourth driven shaft and the second driving shaft in a power fit manner, a lower side magnetic block cavity between the second driving shaft and the fourth driven shaft is communicated and arranged at the lower side of the bearing transmission cavity, a lower side magnetic block which can tighten the third transmission belt is connected in the lower side magnetic block cavity in a sliding fit manner, and a third compression spring is fixedly connected between the lower end surface of the lower side magnetic block and the lower end wall of the lower side magnetic block cavity, and the upper end wall of the bearing transmission cavity is fixedly connected with a second electromagnet corresponding to the lower side magnetic block.

On the basis of the technical scheme, the bearing power cavity comprises a third bevel gear, the third bevel gear is located in the bearing power cavity and fixedly connected with a fourth driven shaft, a fifth driven shaft which extends to the right in the bearing power cavity is connected to the left end wall of the bearing power cavity in a rotating fit mode, the fifth driven shaft is symmetrically and fixedly connected with second wire wheels located in the bearing power cavity, a fourth bevel gear which is fixedly connected with the fifth driven shaft and meshed with the third bevel gear is arranged between the second wire wheels, a third pull rope is fixedly connected with the second wire wheels, and a bearing plate is fixedly connected with the other end of the third pull rope.

On the basis of the technical scheme, the centrifugal wheel cavity comprises a sixth driven shaft, the sixth driven shaft is connected with the upper end wall of the centrifugal wheel cavity in a rotating fit manner, the sixth driven shaft extends downwards into the centrifugal wheel cavity and extends upwards into the telescopic transmission cavity, a centrifugal wheel fixedly connected with the sixth driven shaft is arranged in the centrifugal wheel cavity, a plurality of centrifugal block cavities with outward openings and taking the sixth driven shaft as a center are distributed in the centrifugal wheel in the circumferential direction, centrifugal blocks are connected in the centrifugal block cavities in a sliding fit manner, an extension spring is fixedly connected between the inner end surface of each centrifugal block and the inner end wall of each centrifugal block cavity, a fourth transmission belt positioned in the telescopic transmission cavity is connected between the sixth driven shaft and the second driving shaft in a power fit manner, and a telescopic tightening block cavity positioned between the second driving shaft and the sixth driven shaft is communicated with the lower side of the telescopic transmission cavity, the telescopic tightening block is connected with a telescopic tightening block capable of tightening the fourth transmission belt in a sliding fit mode in the telescopic tightening block cavity, a fourth compression spring is fixedly connected between the lower end face of the telescopic tightening block and the lower end wall of the telescopic tightening block cavity, and a fourth pull rope is fixedly connected between the lower end face of the telescopic tightening block and the lower end face of the lower side magnetic block.

On the basis of the technical scheme, the lift box is including controlling the location sticker, control the location sticker with bear the terminal fixed connection in chamber upper end wall right side and be located between the third stay cord, bear location scanner about the terminal fixedly connected with of chamber right-hand member wall downside, location sticker about the terminal fixedly connected with in well medicine cabinet drawer up end right side, location sticker about well medicine cabinet drawer right-hand member face downside terminal fixedly connected with, well medicine cabinet drawer left end wall fixedly connected with can with the second rack of centrifugation piece meshing.

The invention has the beneficial effects that: through realizing the definite to the drawer position with the location sticker to make the cage can move right before the drawer that needs to get it filled, drive the drawer through the loading board and descend, the drawer position is unchangeable when the fixed assurance of cage resets, prevents that drawer and traditional chinese medicine cabinet from colliding with, installs realization location and transmission on the drawer through sticker and rack simultaneously, avoids the holistic change of traditional chinese medicine cabinet, has increased the commonality.

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.

FIG. 1 is a schematic structural view of an auxiliary medicine taking device for a high-rise drawer of a traditional Chinese medicine cabinet according to the present invention;

FIG. 2 is a schematic sectional view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic sectional view taken along line B-B in FIG. 2;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

FIG. 5 is an enlarged view of the structure of FIG. 1 at D;

fig. 6 is an enlarged schematic view of the structure at E in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: 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.

As shown in fig. 1-6, the auxiliary medicine taking device for the high-rise drawer of the traditional Chinese medicine cabinet comprises a main body box 10, the main body box 10 is fixedly connected with a ceiling and is positioned right above the traditional Chinese medicine cabinet, a sliding cavity 12 with a forward opening is arranged in the main body box 10, a first rack 28 is fixedly connected with the rear end wall of the sliding cavity 12, a sliding box 11 is connected in the sliding cavity 12 in a sliding fit manner, a lifting transmission cavity 40 is arranged in the sliding box 11, a wire wheel cavity 37 is symmetrically arranged on the left side and the right side of the lifting transmission cavity 40, a first motor 39 which is fixedly connected with the main body box 10 and is positioned on the upper side of the wire wheel cavity 37 on the right side is arranged on the right side of the lifting transmission cavity 40, a sliding transmission cavity 22 which is positioned on the upper side of the wire wheel cavity 37 on the left side and extends backwards is arranged on the left side of the lifting transmission cavity 40, a, the left end wall of the lifting transmission cavity 40 is connected with a first driven shaft 32 which extends into the wire wheel cavity 37 towards the left side and the right side in a rotating matching way, a first spool 36 fixedly connected with the first driven shaft 32 is arranged in the spool cavity 37, a first pull rope 35 is fixedly connected to the first wire wheel 36, the first pull rope 35 extends downwards to the outside, the other end of the first pull rope 35 is fixedly connected with the lifting box 13, a bearing cavity 14 which is opened downwards and is communicated front and back is arranged in the lifting box 13, a centrifugal wheel cavity 67 is communicated with the left side of the bearing cavity 14, a bearing power cavity 73 is arranged on the upper side of the bearing cavity 14, a bearing transmission cavity 57 is arranged on the upper side of the bearing power cavity 73, the upper side of the bearing transmission cavity 57 is provided with a telescopic transmission cavity 59, and the lower side of the bearing transmission cavity 57 is provided with a second motor 47 which is fixedly connected with the lifting box 13 and is positioned on the left side of the bearing power cavity 73.

In addition, in one embodiment, the lifting transmission cavity 40 includes a first driving shaft 41, the first driving shaft 41 is connected with the left end wall of the lifting transmission cavity 40 in a rotating fit manner, the first driving shaft 41 extends leftwards into the sliding transmission cavity 22 and rightwards to be fixedly connected with the left end surface of the first motor 39, a first transmission belt 29 located in the lifting transmission cavity 40 is connected between the first driving shaft 41 and the first driven shaft 32 in a power fit manner, an upper magnetic block cavity 30 located between the first driving shaft 41 and the first driven shaft 32 is communicated with the left side of the lifting transmission cavity 40, an upper magnetic block 33 capable of tightening the first transmission belt 29 is connected in the upper magnetic block cavity 30 in a sliding fit manner, a first compression spring 31 is fixedly connected between the left end surface of the upper magnetic block 33 and the left end wall of the upper magnetic block cavity 30, the right end wall of the lifting transmission cavity 40 is fixedly connected with a first electromagnet 38 corresponding to the upper magnetic block 33; the first motor 39 is started to drive the first driving shaft 41 to rotate, when the upper magnetic block 33 tightens the first driving belt 29, the first driving shaft 41 rotates to drive the first driven shaft 32 to rotate through the first driving belt 29, so as to drive the first reel 36 to rotate, the first reel 36 rotates to drive the lifting box 13 to descend through the first pull rope 35, and when the first motor 39 is started reversely and the upper magnetic block 33 tightens the first driving belt 29, the lifting box 13 ascends.

In addition, in one embodiment, the sliding power cavity 23 includes a second driven shaft 24, the second driven shaft 24 is connected with the bottom end wall of the sliding power cavity 23 in a rotating fit manner and extends upwards into the sliding power cavity 23, a transmission gear 25 fixedly connected with the second driven shaft 24 and engaged with the first rack 28 is arranged in the sliding power cavity 23, a first bevel gear 26 fixedly connected with the second driven shaft 24 is arranged on the upper side of the transmission gear 25, a third driven shaft 16 extending rightwards into the sliding power cavity 23 and extending leftwards into the sliding transmission cavity 22 is connected with the left end wall of the sliding power cavity 23 in a rotating fit manner, a second bevel gear 27 fixedly connected with the third driven shaft 16 and engaged with the first bevel gear 26 is arranged in the sliding power cavity 23, and a second transmission belt 17 located in the sliding transmission cavity 22 is connected between the third driven shaft 16 and the first driving shaft 41 in a power fit manner, a sliding tightening block cavity 20 positioned between the third driven shaft 16 and the first driving shaft 41 is communicated with the left side of the sliding transmission cavity 22, a sliding tightening block 21 capable of tightening the second transmission belt 17 is connected in the sliding tightening block cavity 20 in a sliding fit manner, a second compression spring 18 is fixedly connected between the left end surface of the sliding tightening block 21 and the left end wall of the sliding tightening block cavity 20, a second pull rope 19 is also fixedly connected to the left end surface of the sliding tightening block 21, and the other end of the second pull rope 19 is fixedly connected with the left end surface of the upper magnetic block 33; when the first electromagnet 38 is turned off, because the elastic force of the second compression spring 18 is greater than that of the first compression spring 31, under the action of the elastic force of the second compression spring 18, the sliding tightening block 21 tightens the second transmission belt 17, the second transmission belt 17 tightens for transmission and the first transmission belt 29 looses for non-transmission, when the first electromagnet 38 is turned on, the attraction force between the first electromagnet 38 and the upper magnetic block 33 drives the upper magnetic block 33 to move to the right against the pulling force of the second pull rope 19 to tighten the first transmission belt 29, and simultaneously the sliding tightening block 21 moves to the left against the pushing force of the second compression spring 18 under the pulling force of the second pull rope 19 to the left of the second transmission belt 17, so that the first transmission belt 29 tightens for transmission and the second transmission belt 17 looses for non-transmission, when the second transmission belt 17 tightens for transmission, the first driving shaft 41 rotates to drive the third driven shaft 16 to rotate through the second transmission belt 17, so as to drive the first bevel gear 26 to rotate through the second bevel gear 27, the first bevel gear 26 rotates to drive the transmission gear 25 to rotate through the second driven shaft 24, the transmission gear 25 rotates to drive the sliding box 11 to move rightwards along the first rack 28 under the action of the first rack 28, and when the first motor 39 rotates reversely, the sliding box 11 is driven to move leftwards.

In addition, in one embodiment, the bearing transmission cavity 57 includes a second driving shaft 74, the second driving shaft 74 is connected with the upper end surface of the bearing transmission cavity 57 in a rotating fit manner, the second driving shaft 74 extends upwards into the telescopic transmission cavity 59 and downwards to be fixedly connected with the upper end surface of the second motor 47, the lower end wall of the bearing transmission cavity 57 is connected with a fourth driven shaft 55 which extends upwards to the bearing transmission cavity 57 and downwards to the bearing power cavity 73 in a rotating fit manner, a third transmission belt 56 is connected between the fourth driven shaft 55 and the second driving shaft 74 in a power fit manner, a lower magnetic block cavity 48 located between the second driving shaft 74 and the fourth driven shaft 55 is communicated with the lower side of the bearing transmission cavity 57, a lower magnetic block 50 capable of tightening the third transmission belt 56 is connected in the lower magnetic block cavity 48 in a sliding fit manner, a third compression spring 49 is fixedly connected between the lower end surface of the lower magnetic block 50 and the lower end wall of the lower magnetic block cavity 48, and a second electromagnet 58 corresponding to the lower magnetic block 50 is fixedly connected to the upper end wall of the bearing transmission cavity 57; the second motor 47 is started to drive the second driving shaft 74 to rotate, and when the third transmission belt 56 is tightened by the lower magnetic block 50, the second driving shaft 74 rotates to drive the fourth driven shaft 55 to rotate through the third transmission belt 56.

In addition, in one embodiment, the bearing power cavity 73 includes a third bevel gear 54, the third bevel gear 54 is located in the bearing power cavity 73 and is fixedly connected with the fourth driven shaft 55, a fifth driven shaft 51 which extends to the right into the bearing power cavity 73 is connected in a rotationally matched manner in the left end wall of the bearing power cavity 73, second pulleys 53 which are located in the bearing power cavity 73 are fixedly connected to the fifth driven shaft 51 in a bilateral symmetry manner, a fourth bevel gear 52 which is fixedly connected with the fifth driven shaft 51 and is engaged with the third bevel gear 54 is arranged between the second pulleys 53, a third pull rope 75 is fixedly connected to the second pulleys 53, and a bearing plate 15 is fixedly connected to the other end of the third pull rope 75; the fourth driven shaft 55 rotates to drive the fourth bevel gear 52 to rotate through the third bevel gear 54, so that the fifth driven shaft 51 drives the second pulley 53 to rotate, the second pulley 53 rotates to drive the bearing plate 15 to descend through the third pull rope 75, and when the second motor 47 rotates reversely, the bearing plate 15 ascends.

In addition, in an embodiment, the centrifugal wheel cavity 67 includes a sixth driven shaft 70, the sixth driven shaft 70 is connected with the upper end wall of the centrifugal wheel cavity 67 in a rotating fit manner, the sixth driven shaft 70 extends downward into the centrifugal wheel cavity 67 and extends upward into the telescopic transmission cavity 59, a centrifugal wheel 69 fixedly connected with the sixth driven shaft 70 is arranged in the centrifugal wheel cavity 67, a plurality of centrifugal block cavities 66 with the sixth driven shaft 70 as a central opening outward are circumferentially distributed in the centrifugal wheel 69, a centrifugal block 68 is connected in the centrifugal block cavity 66 in a sliding fit manner, an extension spring 63 is fixedly connected between the inner end surface of the centrifugal block 68 and the inner end wall of the centrifugal block cavity 66, a fourth transmission belt 42 located in the telescopic transmission cavity 59 is connected between the sixth driven shaft 70 and the second driving shaft 74 in a power fit manner, and a lower side of the telescopic transmission cavity 59 is communicated with a driving shaft 74 located between the second driving shaft 74 and the sixth driven shaft 70 A telescopic tightening block cavity 44 therebetween, wherein a telescopic tightening block 43 capable of tightening the fourth transmission belt 42 is connected in the telescopic tightening block cavity 44 in a sliding fit manner, a fourth compression spring 45 is fixedly connected between the lower end surface of the telescopic tightening block 43 and the lower end wall of the telescopic tightening block cavity 44, and a fourth pull rope 46 is fixedly connected between the lower end surface of the telescopic tightening block 43 and the lower end surface of the lower magnetic block 50; when the second electromagnet 58 is turned off, because the elastic force of the fourth compression spring 45 is greater than that of the third compression spring 49, the telescopic tightening block 43 tightens the fourth transmission belt 42 under the thrust of the fourth compression spring 45, the lower magnetic block 50 is located on the lower side of the third transmission belt 56 under the tension of the fourth pull rope 46, the fourth transmission belt 42 is in a tightening transmission state and the third transmission belt 56 is in a loosening non-transmission state, after the second electromagnet 58 is started, the lower magnetic block 50 overcomes the tension of the fourth pull rope 46 to move upwards to tighten the third transmission belt 56 under the suction between the lower magnetic block 50 and the second electromagnet 58, and the telescopic tightening block 43 overcomes the thrust of the fourth compression spring 45 to move downwards to the lower side of the fourth transmission belt 42 under the tension of the fourth pull rope 46, so that the fourth transmission belt 42 is in a relaxed non-transmission state and the third transmission belt 56 is in a tight transmission state, when the fourth transmission belt 42 is in tight transmission, the second driving shaft 74 rotates to drive the sixth driven shaft 70 to rotate through the fourth transmission belt 42, so as to drive the centrifugal wheel 69 to rotate, and the centrifugal wheel 69 rotates to drive the centrifugal block 68 to move outwards against the pulling force of the tension spring 63 under the action of centrifugal force.

In addition, in one embodiment, the lifting box 13 includes left and right positioning stickers 61, the left and right positioning stickers 61 are fixedly connected with the right end of the upper end wall of the bearing cavity 14 and are located between the third pulling ropes 75, the lower end of the right end wall of the bearing cavity 14 is fixedly connected with an upper and lower positioning scanner 65, the right end of the upper end surface of the drawer of the traditional Chinese medicine cabinet is fixedly connected with the left and right positioning stickers 61, the lower end of the right end surface of the drawer of the traditional Chinese medicine cabinet is fixedly connected with an upper and lower positioning stickers 64, and the left end wall of the drawer of the traditional Chinese medicine cabinet is fixedly connected with; the left and right positioning scanners 60 can scan downwards, when the left and right positioning stickers 61 are scanned by the left and right positioning scanners 60, the first electromagnet 38 is started, the up and down positioning scanner 65 can scan leftwards, when the up and down positioning scanner 65 scans the up and down positioning stickers 64, the first motor 39 is closed, the second motor 47 is started, so that the drawer needing to take medicine is positioned, when the centrifugal block 68 moves outwards, the centrifugal block is meshed with the second rack 71, so that the drawer is driven to move forwards or backwards through the rotation of the centrifugal wheel 69.

The applicant will specifically describe an auxiliary medicine taking device for a high-rise drawer of a traditional Chinese medicine cabinet in the present application with reference to fig. 1 to 6 and the above description:

in an initial state, the left end surface of the sliding box 11 is abutted against the left end wall of the sliding cavity 12, the third pull rope 75 is in a complete contraction state, the first pull rope 35 is in a complete contraction state, the drawers of the traditional Chinese medicine cabinet are all completely positioned in the traditional Chinese medicine cabinet, the upper magnetic block 33 is positioned on the left side of the first transmission belt 29, the first compression spring 31 is in a compression state, the second pull rope 19 is in a tightening state, the sliding tightening block 21 tightens the second transmission belt 17, the second compression spring 18 is in a loosening state, the lower magnetic block 50 is positioned on the lower side of the third transmission belt 56, the third compression spring 49 is in a compression state, the fourth pull rope 46 is in a tightening state, the fourth compression spring 45 is in a loosening state, the telescopic tightening block 43 tightens the fourth transmission belt 42, the extension spring 63 is in a loosening state, and the centrifugal block 68 is completely positioned in;

when the drawer starts to work, a part of the drawer needing to take medicine is drawn out, so that the left and right positioning stickers 61 and the up and down positioning stickers 64 are positioned at the front side of the traditional Chinese medicine cabinet, the first motor 39 is started to drive the sliding box 11 to move rightwards, so as to drive the lifting box 13 to move rightwards until the left and right positioning stickers 61 are scanned by the left and right positioning scanner 60, the first electromagnet 38 is started, the sliding box 11 stops moving rightwards, the first wire wheel 36 rotates to drive the lifting box 13 to move downwards through the first pull rope 35, when the lifting box 13 moves downwards until the up and down positioning scanner 65 scans the up and down positioning stickers 64, the first motor 39 is closed, the second motor 47 is started, the first motor 39 is closed, so that the lifting box 13 is fixed and does not move any more, the second motor 47 starts to drive the centrifugal wheel 69 to rotate, so that the centrifugal block 68 moves outwards to be engaged with the second rack 71, so as to drive the drawer to move, the second electromagnet 58 is started, the centrifugal wheel 69 stops rotating, the second wire wheel 53 rotates to drive the bearing plate 15 to move downwards through the third pull rope 75, the second motor 47 is closed after the bearing plate 15 descends to a proper position, auxiliary medicine taking is achieved by conveying a high-rise drawer to a lower position, the first motor 39 is started reversely after medicine taking is completed, the second electromagnet 58 is closed after the bearing plate 15 ascends to the highest position, the centrifugal wheel 69 reversely rotates to drive the drawer to move backwards to be separated from the bearing plate 15, the first motor 39 is started, the lifting box 13 is driven to ascend to the highest position, the first electromagnet 38 is closed, the transmission gear 25 reversely rotates to drive the sliding box 11 to move leftwards to an initial position, and a part of drawers which are opened are manually pushed to be completely closed, so that medicine taking operation is completed.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a high-rise drawer of traditional chinese medicine cabinet is with supplementary device of getting it filled, includes the main part case, its characterized in that: the main body box is fixedly connected with a ceiling and is positioned right above the traditional Chinese medicine cabinet, a sliding cavity with a forward opening is arranged in the main body box, a first rack is fixedly connected with the rear end wall of the sliding cavity, the sliding cavity is connected with the sliding box in a sliding fit manner, a lifting transmission cavity is arranged in the sliding box, the left side and the right side of the lifting transmission cavity are symmetrically provided with wire wheel cavities, the right side of the lifting transmission cavity is provided with a first motor which is fixedly connected with the main body box and is positioned at the upper side of the wire wheel cavity at the right side, the left side of the lifting transmission cavity is provided with a sliding transmission cavity which is positioned at the upper side of the wire wheel cavity at the left side and extends backwards, the right side of the sliding transmission cavity is provided with a sliding power cavity with a backward opening, the left end wall of the lifting transmission cavity is rotatably connected with a first driven shaft which extends, the first pull rope is fixedly connected to the first wire wheel, the first pull rope extends downwards to the outside, the other end of the first pull rope is fixedly connected with a lifting box, a bearing cavity which is downward opened and is penetrated through from front to back is arranged in the lifting box, the left side of the bearing cavity is communicated with a centrifugal wheel cavity, a bearing power cavity is arranged on the upper side of the bearing cavity, a bearing transmission cavity is arranged on the upper side of the bearing power cavity, a telescopic transmission cavity is arranged on the upper side of the bearing transmission cavity, and a second motor which is fixedly connected with the lifting box and is positioned on the left side of the bearing power cavity is arranged on the lower side; the lifting transmission cavity comprises a first driving shaft which is connected with the left end wall of the lifting transmission cavity in a rotating fit manner, the first driving shaft extends leftwards into the sliding transmission cavity and rightwards to be fixedly connected with the left end face of the first motor, a first driving belt positioned in the lifting transmission cavity is connected between the first driving shaft and the first driven shaft in a power matching way, the left side of the lifting transmission cavity is communicated with an upper magnetic block cavity positioned between the first driving shaft and the first driven shaft, the upper magnetic block cavity is connected with an upper magnetic block which can tighten the first transmission belt in a sliding fit way, a first compression spring is fixedly connected between the left end surface of the upper magnetic block and the left end wall of the upper magnetic block cavity, the right end wall of the lifting transmission cavity is fixedly connected with a first electromagnet corresponding to the upper magnetic block; the sliding power cavity comprises a second driven shaft, the second driven shaft is connected with the bottom end wall of the sliding power cavity in a rotating fit mode and extends upwards into the sliding power cavity, a transmission gear which is fixedly connected with the second driven shaft and is meshed with the first rack is arranged in the sliding power cavity, a first bevel gear which is fixedly connected with the second driven shaft is arranged on the upper side of the transmission gear, a third driven shaft which extends rightwards into the sliding power cavity and extends leftwards into the sliding power cavity is connected in a rotating fit mode on the left end wall of the sliding power cavity, a second bevel gear which is fixedly connected with the third driven shaft and is meshed with the first bevel gear is arranged in the sliding power cavity, a second transmission belt which is located in the sliding transmission cavity is connected between the third driven shaft and the first driving shaft in a power fit mode, and a sliding transmission cavity left side is communicated with and is located between the third driven shaft and the first driving shaft A sliding tightening block capable of tightening the second transmission belt is connected in the sliding tightening block cavity in a sliding fit manner, a second compression spring is fixedly connected between the left end face of the sliding tightening block and the left end wall of the sliding tightening block cavity, a second pull rope is also fixedly connected to the left end face of the sliding tightening block, and the other end of the second pull rope is fixedly connected with the left end face of the upper magnetic block; the bearing transmission cavity comprises a second driving shaft, the second driving shaft is connected with the upper end face of the bearing transmission cavity in a rotating fit manner, the second driving shaft extends upwards into the telescopic transmission cavity and downwards extends to be fixedly connected with the upper end face of the second motor, the lower end wall of the bearing transmission cavity is connected with a fourth driven shaft which extends upwards from the right to the bearing transmission cavity and downwards extends to the bearing power cavity in a rotating fit manner, a third transmission belt is connected between the fourth driven shaft and the second driving shaft in a power fit manner, a lower side magnetic block cavity positioned between the second driving shaft and the fourth driven shaft is communicated with the lower side of the bearing transmission cavity, a lower side magnetic block capable of tightening the third transmission belt is connected in the lower side magnetic block cavity in a sliding fit manner, and a third compression spring is fixedly connected between the lower end face of the lower side magnetic block and the lower end wall of the lower side magnetic block cavity, the upper end wall of the bearing transmission cavity is fixedly connected with a second electromagnet corresponding to the lower magnetic block; the bearing power cavity comprises a third bevel gear, the third bevel gear is positioned in the bearing power cavity and is fixedly connected with a fourth driven shaft, a fifth driven shaft which extends rightwards into the bearing power cavity is connected to the left end wall of the bearing power cavity in a rotating fit mode, second wire wheels positioned in the bearing power cavity are fixedly connected to the fifth driven shaft in a bilateral symmetry mode, a fourth bevel gear which is fixedly connected with the fifth driven shaft and is meshed with the third bevel gear is arranged between the second wire wheels, a third pull rope is fixedly connected to the second wire wheels, and a bearing plate is fixedly connected to the other end of the third pull rope; the centrifugal wheel cavity comprises a sixth driven shaft, the sixth driven shaft is connected with the upper end wall of the centrifugal wheel cavity in a rotating fit manner, the sixth driven shaft extends downwards into the centrifugal wheel cavity and extends upwards into the telescopic transmission cavity, a centrifugal wheel fixedly connected with the sixth driven shaft is arranged in the centrifugal wheel cavity, a plurality of centrifugal block cavities with outward openings and taking the sixth driven shaft as a center are distributed in the centrifugal wheel in the circumferential direction, centrifugal blocks are connected in the centrifugal block cavities in a sliding fit manner, a tension spring is fixedly connected between the inner end surface of each centrifugal block and the inner end wall of each centrifugal block cavity, a fourth transmission belt positioned in the telescopic transmission cavity is connected between the sixth driven shaft and the second driving shaft in a power fit manner, and a telescopic tightening block cavity positioned between the second driving shaft and the sixth driven shaft is communicated with the lower side of the telescopic transmission cavity, a telescopic tightening block capable of tightening the fourth transmission belt is connected in the telescopic tightening block cavity in a sliding fit manner, a fourth compression spring is fixedly connected between the lower end face of the telescopic tightening block and the lower end wall of the telescopic tightening block cavity, and a fourth pull rope is fixedly connected between the lower end face of the telescopic tightening block and the lower end face of the lower magnetic block; the lift box is including controlling the location sticker, control the location sticker with bear the terminal fixed connection in chamber upper end wall right side and be located between the third stay cord, bear location scanner about the terminal fixedly connected with in chamber right-hand member wall downside, location sticker about the terminal fixedly connected with in well medicine cabinet drawer upper end right side, location sticker about the terminal fixedly connected with in well medicine cabinet drawer right-hand member downside, well medicine cabinet drawer left end wall fixedly connected with can with the second rack of centrifugal piece meshing.