CN220832352U - Zero-dismantling medicine rotating shelf - Google Patents

Abstract

The utility model provides a zero-dismantling medicine rotating storage rack, which comprises a rotating wheel disk and a storage platform, wherein the disk surface of the rotating wheel disk is vertically arranged, and the wheel disk can rotate along the main axis of the rotating wheel disk; the rim of the rotary wheel disc is hinged with a plurality of object placing platforms, the object placing platforms can rotate in a vertical plane along the rim, the vertical structure of the rotary wheel disc can fully utilize the three-dimensional space, the medicine storage density is improved, the rotating mechanism of the rotary wheel disc can enable the object placing platforms to move to the position easy to take and place, and the working efficiency is improved. In addition, be equipped with the storehouse position of a plurality of round platform shape through-hole shapes on the thing platform, round platform shape big-end-up and run through the upper and lower surface of putting the thing platform, the storehouse position is used for the sign indicating number to accomodate the medicine bottle of tearing open zero medicine, and the medicine bottle half inserts the storehouse position, can prevent that the medicine bottle from empting at the rotatory in-process of rim plate, and the storehouse wall of slope makes the medicine bottle of storehouse position can the different diameters of self-adaptation, and the bottom of storehouse position is less than bottle bottom diameter and can prevent that the medicine bottle from the landing of storehouse bottom. The rotary object placing platform is combined with the bin space design to facilitate inventory statistics and classification.

Description

Zero-dismantling medicine rotating shelf

Technical Field

The utility model relates to the field of medical treatment, in particular to a rotary commodity shelf for medicines for removing parts.

Background

With the development of society, there is an increasing demand for disease treatment, and in the medical industry, medical pharmacies are closely related to the medical level, and medical pharmacies are places where medicines are provided for clinical treatment, are important places for medicine circulation, wherein the storage and distribution of medicines are very important and efficient tasks are required.

In order to improve the working efficiency of the pharmacy, some larger-scale hospitals are internally provided with automatic pharmacies, and the application of the automatic pharmacy system can realize the functions of rapid and automatic distribution, automatic storage and statistics management and the like of medicines. However, the automated pharmacy often needs to be equipped with automated equipment of a system, the economic cost is higher, the applicability is not high for some hospitals with smaller standard body quantity, and the operation concepts of open source throttling, cost reduction and synergy are not facilitated, so that the hospitals with smaller body quantity often adopt the traditional manual medicine placing mode. In these less hospital pharmacy of volume, the storage and the distribution facility of medicine often have some problems, and the medicine of tearing open of hospital pharmacy lacks regular storage device, and too much medicine of tearing open is often piled up in narrow storing space, and chaotic stacking condition is not only unreasonable to the utilization of space, still because of lacking classification management, leads to the medicament personnel unable quick finding out target medicine, greatly reduced work efficiency. In addition, because the medicine in the hospital is more to tear open, traditional manual medicine arranging mode can not clearly monitor the inventory condition and the service condition of medicine, and medicament personnel can not obtain accurate medicine information, the circumstances such as medicine confusion, difficult management appear very easily. Therefore, there is a need for improvement in infrastructure of pharmacies, particularly in medicine storage facilities.

Disclosure of utility model

The utility model aims to overcome the defects that the storage facilities of medicines in the prior art are not perfect enough, the medicines are not convenient to disassemble and put, the storage and the taking are inconvenient, the efficiency is low, the storage space cannot be fully utilized, and the statistics and classification of medicine inventory are inconvenient, and provides a rotary commodity shelf for disassembling and putting medicines.

The utility model solves the technical problems by the following technical scheme:

a zero drug rotation shelf, comprising:

The rotary wheel disc is vertically arranged, and can rotate around the main axis of the rotary wheel disc;

The medicine bottle storage device comprises a storage platform, wherein a plurality of storage platforms are arranged at the rim of a rotating wheel disc, the storage platforms are hinged to the rotating wheel disc, the hinge axes of the storage platforms are parallel to a main axis, a plurality of storage spaces for containing medicine bottles are formed in the upper surfaces of the storage platforms, the medicine bottles are used for containing medicine for disassembling, the storage spaces are in a circular truncated cone-shaped through hole shape with the size of the upper part and the lower part, the storage spaces penetrate through the lower surface of the storage platforms, the top diameter of the storage spaces is larger than the bottle bottom diameter of the medicine bottles, and the bottom diameter of the storage spaces is smaller than the bottle bottom diameter of the medicine bottles.

In the scheme, a rotary wheel disc and a storage platform are arranged on the storage rack, the disc surface of the rotary wheel disc is vertically arranged, and the wheel disc can rotate along the main axis of the rotary wheel disc; the rim of the rotary wheel disc is hinged with a plurality of object placing platforms, the object placing platforms are horizontally arranged and can rotate in a vertical plane along the rim, the vertical structure of the rotary wheel disc can fully utilize the three-dimensional space, the medicine storage density is improved, and the rotating mechanism of the rotary wheel disc can enable the object placing platforms to move to the position easy to take and place, so that the working efficiency is improved. In addition, a plurality of cone-shaped through hole-shaped bin spaces are arranged on the object placing platform, the cone-shaped bin spaces are large in upper part and small in lower part and penetrate through the upper surface and the lower surface of the object placing platform, the bin spaces are used for stacking medicine bottles, and the medicine bottles can be prevented from toppling over or colliding with each other in the rotating process of the wheel disc in a half-inserted mode of the bin spaces, so that a certain protection effect is achieved on the medicine bottles; the inclined design of the bin wall enables the bin space to be self-adaptive to medicine bottles with different diameters, and the bottom of the bin space is smaller than the bottle bottom diameter so as to prevent the medicine bottles from sliding from the bottom of the bin space. The rotary object placing platform is combined with the bin space design to facilitate the inventory statistics and classification of medicines, so that the inventory of medicine bottles is clear at a glance.

Preferably, the zero drug disassembly rotary storage rack further comprises a hole groove, the hole groove is cup-shaped, the hole groove is sleeved in the bin along the vertical downward direction, the inner wall of the hole groove is used for accommodating a drug bottle, and the inner wall of the hole groove can be folded to reduce the inner diameter.

In this scheme, designed cupped hole groove, the inslot wall in hole groove can reduce the internal diameter through folding mode, establishes in the position in storehouse through this hole groove cover, can make the medicine bottle diameter be less than the medicine bottle of position in storehouse bottom diameter also can be accomodate by this supporter, and can not follow the hole roll-off at the bottom of the storehouse, has adapted to richer use scene. Considering that many medicines are from taking the medicine bottle when leaving the factory, when former factory's medicine bottle can't successfully put on this supporter because of the diameter is less than bin bottom diameter, can realize successfully accomodating through add the hole groove in this scheme in the bin, and need not to look for the medicine bottle of bigger diameter and replace former factory's medicine bottle, saved the step of replacing the medicine bottle, the beta structure operation in hole groove is more convenient, has improved storage efficiency to bin's adaptability has been improved. In addition, the hole groove is separated from the bin space structure, and can be installed or taken down, so that medicament personnel can conveniently take the medicament according to needs.

Preferably, the hole groove is made of elastic silica gel materials, and the outer wall of the hole groove is attached to the side wall of the bin.

In this scheme, the material in design hole groove is elastic silica gel to with the cell outer wall in hole groove and the lateral wall laminating of bin, can utilize the frictional force between surface property increase hole groove and the lateral wall of silica gel material, make get and put in-process hole groove be difficult for being taken out and break away from the bin. In addition, the elastic silica gel material has elasticity, can adapt to the diameter of the medicine bottle to finely adjust the inner diameter of the hole slot, and has better adaptability; and the hole groove can utilize elasticity to grip the body, utilize the surface property increase of silica gel material and the frictional force of body, increase medicine bottle put stability, the in-process medicine bottle of operation supporter is difficult for falling out from the bin, is difficult for colliding with, has better guard action to the medicine bottle.

Preferably, the opening of the hole groove is provided with a flange structure extending horizontally outwards, and the outer diameter of the flange structure is larger than the top diameter of the bin.

In this scheme, the opening department at the hole groove has set up the outside flange structure that extends of level to the external diameter of flange is greater than the top diameter of position in storehouse, can make the hole groove cover establish in the position in storehouse, and the flange structure is shelved in the top opening department of position in storehouse and can not pass through for whole hole groove can not slide out downwards from the bottom opening of position in storehouse, has spacing effect, has increased the bearing capacity and the stability of hole groove.

Preferably, the zero disassembly medicine rotating storage rack further comprises a main shaft and two supporting parts, wherein the two supporting parts are symmetrically arranged, two ends of the main shaft are respectively connected with the two supporting parts, the number of the rotating wheel discs is two, and the two rotating wheel discs are respectively sleeved at two ends of the main shaft and are positioned between the two supporting parts;

the object placing platform is arranged between the two rotating wheel discs.

In this scheme, through setting up the main shaft, respectively set up a supporting part at main shaft both ends, can improve the rotation stability of rim plate to make the supporter can install in various positions such as horizontal plane, vertical plane, ceiling or external facility through the supporting part, with this adaptation more service scenario, two supporting parts enable the supporter more stable difficult empting. In addition, each of the two ends of the main shaft is provided with a rotary wheel disc, and the object placing platform is arranged between the two rotary wheel discs, so that the object placing platform is not easy to incline, and the stability is improved.

Preferably, the supporting part comprises two triangular brackets, and two ends of the main shaft are respectively connected with the top ends of the two triangular brackets;

The triangular bracket further comprises a sucker, wherein the sucker is arranged at the bottom of the triangular bracket, a plurality of suckers are arranged at the bottom of the triangular bracket, and the surface of the sucker faces downwards.

In the scheme, the triangular support is selected as the supporting part, two ends of the main shaft are connected to the top end of the triangle, and the stability of the triangle is utilized, so that the supporting capacity of the supporting part is stronger, and the shelf can be stably placed; the bottom of the triangular bracket is provided with the sucker, and the triangular bracket can be fixed on an external placement surface by utilizing the sucker, so that the placement stability of the zero-dismantling medicine rotating placement frame is further improved, and the placement frame is not easy to topple or slide.

Preferably, the rotary wheel disc comprises a hub and spokes;

The hub is used for being matched with the main shaft, and comprises a first bearing;

The spoke with put thing platform one-to-one sets up, a plurality of the spoke with wheel hub is radial arrangement as the center, the one end of spoke with wheel hub is fixed, the other end of spoke with corresponding put thing platform and pass through the second bearing and articulate, put thing platform with spoke articulated department is equipped with axle construction and bearing frame, the axle construction with the second bearing cooperation, the bearing frame is used for holding the second bearing.

In the scheme, the structure of the wheel disc is designed into a mode of adding spokes to the wheel hub, so that the wheel disc structure is simpler, the material cost is saved, and medicament personnel can observe or take and put the medicament bottle from the side surface of the storage rack through the wheel disc, so that the medicament bottle taking and putting device is more convenient; the hub is matched with the main shaft, bearings are arranged at the matched positions, and the spokes are hinged with the object placing platform one by one through the bearings, wherein the bearing parts enable the rotation of the object placing frame to be smoother and more labor-saving; the hub and the bearing seat can protect the bearing and prolong the service life of the bearing; in addition, the articulated mode makes the thing platform of putting around main shaft pivoted in-process, and its planar orientation is not influenced by the rotation position of rotation rim plate, and the thing platform of putting can remain the level under the focus influence of medicine bottle all the time promptly, and the major diameter mouth of bin up.

Preferably, the two ends of the main shaft are respectively provided with a first limiting part, and the tail end of the shaft structure of the object placing platform is provided with a second limiting part.

In this scheme, through setting up spacing portion in many play hinge structure department, can prevent to rotate the rim plate and drop from main shaft both ends at the rotation in-process, perhaps break away from with the axle construction of putting the thing platform, increase the structural stability of supporter, in addition, rotation in-process spacing portion also has the effect that prevents that junction is not hard up, rocks.

Preferably, the storage platform is hollow structure, and includes the nested portion, the nested portion is the plane form and including the first additional position in storehouse that is used for holding the medicine bottle, the first additional position in storehouse is big-end-up's round platform shape through-hole form, runs through the upper and lower surface of nested portion, nested portion can take out or pack up:

when the nesting part is in the extraction state, the plane of the nesting part is parallel to the object placing platform and is in lap joint fixation;

when the nesting part is in a stowage state, the nesting part is nested in the hollow part of the object placing platform, and the first additional bin of the nesting part coincides with the bin of the object placing platform.

In the scheme, the nesting part is arranged on the opposite object platform, and the main function of the nesting part is the same as that of the original object platform, so that the object shelf can accommodate medicine bottles, expand the bin space as required and accommodate more medicine bottles; the nesting part can be retracted and hidden in the original storage platform or can be pulled out for storage as required, the structure is simple, the operation is easy, the storage state does not occupy extra space, the cost and the space for additionally arranging the storage rack are generally saved, and the storage density is further improved.

Preferably, the storage platform comprises a folding part, the folding part is planar and comprises a second additional bin for accommodating a medicine bottle, the second additional bin is in a circular truncated cone-shaped through hole with a big upper part and a small lower part, the folding part penetrates through the upper surface and the lower surface of the folding part, and the folding part can be unfolded or folded:

When the folding part is in an unfolding state, the plane of the folding part is parallel to the object placing platform and is in lap joint fixation;

When the folded portion is in a folded state, the folded portion is folded up and cannot be used to house a medicine bottle.

In the scheme, the folding part is arranged on the opposite object platform, and the main function of the folding part is the same as that of the original object platform, so that medicine bottles can be stored, and the storage shelf can expand the storage space as required to contain more medicine bottles; the folding part can be folded and hidden or unfolded as required for storage, the structure is simple and easy to operate, the occupied space of the folding state is small, the cost and the space for additionally arranging the storage rack are generally saved, and the storage density is further improved.

The utility model has the positive progress effects that:

For the zero-dismantling medicine rotating storage rack, the rotating wheel disc and the storage platform are arranged, the disc surface of the rotating wheel disc is vertically arranged, and the wheel disc can rotate along the main axis of the rotating wheel disc; the rim of the rotary wheel disc is hinged with a plurality of object placing platforms, the object placing platforms are horizontally arranged and can rotate in a vertical plane along the rim, the vertical structure of the rotary wheel disc can fully utilize the three-dimensional space, the medicine storage density is improved, and the rotating mechanism of the rotary wheel disc can enable the object placing platforms to move to the position easy to take and place, so that the working efficiency is improved. In addition, be equipped with the storehouse position of a plurality of round platform shape through-hole shapes on the thing platform, round platform shape big-end-up and run through the upper and lower surface of putting the thing platform, the storehouse position is used for the sign indicating number to accomodate the medicine bottle of tearing open zero medicine, and the form of medicine bottle half insert storehouse position can prevent the medicine bottle and empty at the rotatory in-process of rim plate, and the storehouse wall of slope makes the medicine bottle of storehouse position can the different diameters of self-adaptation, and the bottom of storehouse position is less than bottle bottom diameter and can prevent that the medicine bottle from the landing of storehouse bottom. The rotary object placing platform is combined with the bin space design to facilitate inventory statistics and classification.

Drawings

FIG. 1 is a perspective view of a zero drug rotation rack according to embodiment 1 of the present utility model;

FIG. 2 is a left side view of the zero drug rotation shelf of embodiment 1 of the present utility model;

FIG. 3 is a cross-sectional perspective view of a zero drug rotation rack according to embodiment 1 of the present utility model;

FIG. 4 is a perspective view of the slot of the zero drug rotation rack of embodiment 2 of the present utility model;

FIG. 5 is a schematic view showing the structure of the side wall of the hole of the zero drug rotation rack according to embodiment 2 of the present utility model;

FIG. 6 is a schematic view showing the installation of the hole groove of the zero drug rotation rack of embodiment 2 of the present utility model;

FIG. 7 is a sectional view showing the installation of the hole groove of the zero drug rotation rack of embodiment 2 of the present utility model;

FIG. 8 is a schematic view showing a retracted state of a nesting portion of a zero drug rotation rack according to embodiment 3 of the present utility model;

Fig. 9 is a schematic drawing showing the state of extraction of the nesting part of the zero drug rotation rack according to embodiment 3 of the present utility model;

Fig. 10 is a schematic view showing the installation of the nesting part of the zero drug rotation rack of embodiment 3 of the utility model in the retracted state in cooperation with the hole groove of embodiment 2.

Description of the reference numerals

Rotating wheel disc 10

Hub 11

First bearing 111

Spoke 12

Second bearing 121

Storage platform 20

Bin 21

Side wall 211 of bin

Shaft structure 22

Second limiting part 221

Bearing support 23

Spindle 30

First limit part 31

Hole groove 40

Inner wall 41 of the tank

Trough outer wall 42

Flange structure 43

Support portion 50

Triangle support 51

Suction cup 52

Nesting portion 60

First additional bin 61

Detailed Description

The present utility model will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments are shown.

Example 1:

Fig. 1 is a perspective view of a zero drug removal rotary rack according to embodiment 1 of the present utility model, which mainly includes a rotary wheel 10 and a placement platform 20. As shown in fig. 2, the disc surface of the rotary wheel disc 10 is vertically arranged, and can rotate around the main shaft 30 line thereof, a plurality of object placing platforms 20 are arranged at the rim of the rotary wheel disc 10, the object placing platforms 20 are hinged with the rotary wheel disc 10, and the hinge axis of the object placing platforms 20 is parallel with the main shaft 30 line of the rotary wheel disc 10. Compared with the traditional medicine stacking mode, the vertical structure of the rack can fully utilize the three-dimensional space, improve the medicine storage density, and the rotating mechanism can enable the object placing platform 20 to move to the position easy to take and place, the moving mode can be that a medicine agent manually dials the rotating wheel disc 10 or the object placing platform 20, or an external control device is used for intelligently controlling the rotating angle of the object placing platform, but no matter what operation rotating mode is selected, the medicine placing rack is more convenient than the traditional medicine storage mode, and therefore the working efficiency is improved.

As shown in fig. 1 and 3, the upper surface of the storage platform 20 is provided with a plurality of bins 21, the bins 21 are in a truncated cone-shaped through hole shape with a large upper part and a small lower part, and penetrate through the lower surface of the storage platform 20, the bins 21 are used for stacking medicine bottles, the medicine bottles can be used for containing and disassembling medicines, and the half-inserting mode of the medicine bottles into the bins 21 can prevent the medicine bottles from toppling over or colliding with each other in the rotating process of the wheel disc, so that a certain protection effect is provided for the medicine bottles; the inclined design of the bin wall enables the bin 21 to be self-adaptive to medicine bottles with different diameters, and the bottom of the bin 21 is smaller than the diameter of the bottle bottom, so that the medicine bottles can be prevented from sliding off the bottom of the bin 21; the diameter of the top of the truncated cone-shaped structure of the bin 21 should be larger than the diameter of the bottom of the medicine bottle to be accommodated so that the medicine bottle can be put into the bin 21 from the top downwards, and the diameter of the bottom of the bin 21 should be smaller than the diameter of the bottom of the medicine bottle, and the wall surface of the bottom of the bin 21 can play a limiting role on the medicine bottle so that the medicine bottle cannot slide out from the bottom after being put into the bin 21; in addition, the rotatable placement platform 20 is designed to be convenient for inventory statistics and classification of medicines in combination with the special bin 21, for example, in actual use, a medicine agent can set labels of the types and the number at the bin 21 of the placement platform 20, or plan a certain placement platform 20 to be used for accommodating medicines of a specific type, and plan a mode that each bin 21 in the platform is placed with a uniform number of medicines, etc., so that the stock of medicine bottles is clear at a glance.

In order to improve the rotating structure of the rack, the rack is further provided with the main shaft 30 and two supporting parts 50, the supporting parts 50 can improve the rotating stability of the wheel disc, and the rack is more stable and is not easy to topple by the two supporting parts 50.

As shown in fig. 1, in this embodiment, the triangular support 51 is selected as the supporting portion 50, and compared with the support using other shapes, the triangular support 51 of this embodiment uses the stability of triangle, so that the supporting capability of the supporting portion 50 is stronger, and the shelf can be more stably placed. The two triangular brackets 51 are symmetrically arranged, the top ends of the two triangular brackets are respectively connected with the two ends of the main shaft 30, and meanwhile, the two rotary wheel discs 10 are respectively sleeved at the two ends of the main shaft 30 and are positioned between the two triangular brackets 51, so that the rotary stability of the wheel discs is further improved. By arranging the object placing platform 20 between the two rotary wheels 10, the object placing platform 20 is not easy to incline or shake.

In addition, the bottom of the triangular support 51 is provided with the suckers 52, as shown in fig. 1, the bottom of each triangular support 51 is respectively provided with two suckers 52, the suckers 52 are respectively positioned at the front end and the rear end of the bottom of the triangular support 51, and the triangular supports 51 are fixed on the external placement surface by the suckers 52 so as to further improve the placement stability of the shelf, and the shelf is not easy to topple or slide.

In the above embodiment, other structures may be selected as the supporting portion 50, for example, wall hanging brackets are connected to both ends of the main shaft 30 to hang the shelf on a vertical wall surface or a ceiling, or the shelf is externally connected with a control device, and the main shaft 30 is directly connected with an external control device, and the external control device is used as the supporting portion 50. Any of the above embodiments is used for expanding the usage scenario of the rack, and may affect the stability effect thereof due to the different structure and setting positions of the supporting portion 50, but may not result in the loss of the main technical effect that the supporting portion 50 makes the placement of the rack more stable. At the same time, the suction cup 52 structure should be adjusted in position or removed as needed as the form of the support 50 is adjusted.

The present utility model optimizes the structure and connection of the rotating disk 10. As shown in fig. 3, in this embodiment, the rotary wheel disc 10 includes a hub 11 and spokes 12, and a planar disc surface or rim of a common wheel disc is removed, so as to simplify the structure of the rotary wheel disc 10 as much as possible, make the structure more compact, on the one hand reduce the material cost and manufacturing difficulty, facilitate reducing the weight, and on the other hand, make the medicine personnel capable of observing the medicine on the platform from the side of the rack through the wheel disc, or make the hand pass through the gap of the rotary wheel disc 10 to take the medicine bottle more convenient. Wherein:

The hub 11 is used for being matched with the main shaft 30, the hub 11 comprises a first bearing 111, the bearing enables the rotation of the shelf to be smooth and labor-saving, the bearing is protected by the hub 11, and the service life is prolonged;

The spokes 12 are arranged in one-to-one correspondence with the placement platforms 20, as shown in fig. 1, in this embodiment, 5 spokes 12 are arranged for each wheel disc, and then 5 placement platforms 20 are correspondingly arranged. The 5 spokes 12 are radially arranged by taking the hub 11 as the center, one end of each spoke 12 is fixed with the hub 11, the other end of each spoke 12 is hinged with the corresponding object placing platform 20 through a second bearing 121, the object placing platform 20 is provided with a shaft structure 22 and a bearing seat 23 at the hinged position of each spoke 12, the shaft structure 22 is matched with the second bearing 121, the bearing seat 23 is used for accommodating the second bearing 121, the bearing seat 23 can protect the bearing and prolong the service life of the bearing, and in the embodiment, the bearing seat 23 and the tail end of each spoke 12 are integrally designed, so that the structure is simplified. In addition, the hinge manner makes the object placing platform 20 not influenced by the rotation position of the rotary wheel disc 10 in the process of rotating around the main shaft 30, namely, the object placing platform 20 can always keep horizontal under the influence of the gravity center of the medicine bottle, and the large diameter opening of the bin 21 always faces upwards, so that the object placing platform is not influenced by the rotation of the wheel disc.

In the above embodiment, the rotary disk 10 may be provided in various disk forms such as gears, planar disks, etc.; in this embodiment, the number of spokes 12 can be adjusted as required, and the corresponding number of the placement platforms 20 should be adjusted accordingly, but such adjustment will not result in loss of the main technical effects thereof; in addition, the structures such as the bearing and the bearing seat 23 are used for further improving the rotation smoothness, optimizing the use experience, and removing the components as required in actual implementation.

For the aforementioned multiple hinge structures, in this embodiment, the first limiting portions 31 are disposed at two ends of the main shaft 30, and the second limiting portions 221 are disposed at the end of the shaft structure 22 of the storage platform 20. The spacing portion can prevent to rotate rim plate 10 and drop from main shaft 30 both ends at the rotation in-process, perhaps break away from with the axle construction 22 of putting thing platform 20, increases the structural stability of supporter, in addition, the in-process spacing portion also has the effect that prevents that the junction is not hard up, rocks. The limiting part structure is used for optimizing rotation stability, and can be removed as required in actual implementation.

Example 2:

In order to further improve the storage effect of the bin 21, on the basis of the zero drug disassembly rotary rack disclosed in embodiment 1, a hole slot 40 which can be separated from each other is additionally designed for the bin 21. As shown in fig. 4 and 5, the hole groove 40 has a cup shape, the inner wall 41 of the hole groove 40 is used for directly accommodating a medicine bottle, in particular, accommodating the bottom of the medicine bottle, and the inner diameter of the inner wall 41 of the hole groove 40 can be reduced by folding. The folding structure of the slot 40 is more convenient to operate, improves the storage efficiency, and improves the adaptability of the bin 21.

The utility model is mainly suitable for containing the unpacked medicines, but in consideration of the fact that a plurality of medicines are taken from factories, the medicine bottles can be directly contained by the medicine bottles taken from the factories and placed on the object placing platform, when the medicine bottles of the original factories cannot be successfully placed on the object placing shelf because the diameter is smaller than the diameter of the bottom of the bin 21, the successful containing can be realized by additionally arranging the hole groove 40 in the bin 21, the medicine bottles with larger diameters are not required to be searched for replacing the original factories, the step of replacing the medicine bottles is omitted, and the containing efficiency is improved.

Fig. 6 is a schematic installation diagram of a hole slot 40 of a zero drug disassembly rotary rack in this embodiment, the hole slot 40 can be sleeved in a bin 21 along a vertical downward direction, and by sleeving the hole slot 40 in the bin 21, a drug bottle with a smaller diameter than the bottom diameter of the bin 21 can be accommodated by the rack, and cannot slide out from a hole at the bottom of the bin, so that the utility model is suitable for richer use fields.

In order to further optimize the matching effect of the hole slot 40 and the bin 21, the elastic silica gel material is selected as a material for the hole slot 40, so that the friction force between the hole slot 40 and the side wall can be increased by utilizing the surface property of the silica gel material, the elastic silica gel material has elasticity, the diameter of a medicine bottle can be self-adapted to finely adjust the inner diameter of the hole slot 40, the adaptability is better, and the elastic silica gel can clamp the bottle body by utilizing the elasticity, so that the hole slot 40 is not easy to be taken out of the bin 21 to separate from the bin 21 in the taking and placing process; in addition, with the cell outer wall 42 of hole groove 40 and the lateral wall 211 of bin mutually laminating, fig. 7 is the installation cross section of the hole groove 40 of the zero drug disassembly rotation supporter of embodiment, as shown in the drawing, in order to make the outer wall of hole groove 40 and the lateral wall 211 of bin more closely laminate, this embodiment has done fine setting with the structure of the inner wall of bin 21, has add the ladder structure that is used for the cooperation hole groove 40 outer wall to the bin 21 inner wall, this closely laminated structure can utilize silica gel material's surface property increase and the frictional force of body better, increase medicine bottle put stability, the in-process medicine bottle of operation supporter is difficult to fall out from bin 21, be difficult for colliding with, have better guard action to the medicine bottle.

Further, in this embodiment, a horizontally outwardly extending flange structure 43 is provided at the opening of the hole 40, as shown in fig. 6, and the outer diameter of the flange structure 43 is larger than the top diameter of the bin 21. When the hole groove 40 is sleeved in the bin 21, the flange structure 43 is placed at the top opening of the bin 21 and cannot pass through the bin, so that the whole hole groove 40 cannot slide downwards from the bottom opening of the bin 21, the limiting effect is achieved, and the supporting capacity and stability of the hole groove 40 are improved.

Example 3:

Considering that the drug storage amount of the pharmacy is always changed, the corresponding storage requirement is also always changed, and this requirement is considered in this embodiment, and the structure of the placement platform 20 is further optimized on the basis of the zero drug disassembly rotation placement frame disclosed in embodiment 1, so as to conveniently adjust the number of bins 21 on the placement frame.

The nesting part 60 is additionally arranged on the opposite object platform 20, meanwhile, the original object platform 20 is adjusted to be of a hollow structure and used for installing the nesting part 60, the nesting part 60 is of a plane shape and comprises a first additional bin 61 for accommodating medicine bottles, the first additional bin 61 is identical to the bin 21 in the embodiment 1 in arrangement mode, is of a truncated cone-shaped through hole shape with a large upper part and a small lower part, and penetrates through the upper surface and the lower surface of the folding part. The main function of the folding part is the same as that of the original object platform 20, and medicine bottles can be stored, so that the storage shelf can expand the bin 21 as required to contain more medicine bottles. Furthermore, the nest 60 can be extracted or retracted:

Fig. 8 is a schematic view of a stowage state of the nesting portion 60 according to the present embodiment, when the nesting portion 60 is in the stowage state, the nesting portion 60 is nested in the hollow portion of the storage platform 20, the first additional bin 61 of the nesting portion 60 coincides with the bin 21 of the storage platform 20, is hidden in the original storage platform 20, and the stowage state does not occupy additional space;

Fig. 9 is a schematic drawing of the extracted state of the nesting portion 60 in the present embodiment, when the nesting portion 60 is in the extracted state, the plane of the nesting portion 60 is parallel to the placement platform 20 and is overlapped and fixed, and the structure adds the first additional space 61 without additionally providing a rack, thereby saving cost and space and further improving storage density on the rack.

This embodiment can also be used with the hole 40 of example 2, and fig. 10 is a schematic view of the fitting of the nesting part 60 of the zero drug rotation rack of example 3 of the utility model with the hole 40 of example 2 in the retracted state.

Alternatively, the above embodiment may be replaced by adding a folded portion to the opposite platform 20, where the folded portion is planar and includes a second additional space for accommodating a medicine bottle, and the second additional space is in the same arrangement form as the space 21 in embodiment 1, and is in a truncated cone-shaped through hole with a large upper part and a small lower part, and penetrates through the upper and lower surfaces of the folded portion. The main function of the folding part is the same as that of the original object platform 20, and medicine bottles can be stored, so that the storage shelf can expand the bin 21 as required to contain more medicine bottles. In addition, the folding portion can be unfolded or folded along the length direction of the storage platform 20:

When the folding part is in an unfolding state, the plane of the folding part is parallel to the object placing platform 20 and is in lap joint and fixed, and the structure adds a second additional bin space under the condition that the object placing shelf is not additionally arranged, so that the cost and the space are saved, and the storage density on the object placing shelf is further improved;

When the folding part is in a folding state, the folding part is folded and cannot be used for accommodating the medicine bottle, so that the occupied space is small.

Various modifications may be made to the embodiments herein by those skilled in the art without departing from the principles and spirit of the utility model, and the above-described exemplary modified embodiments fall within the scope of the utility model without resulting in a loss of key technical effects.

Claims (10)

1. The utility model provides a tear zero medicine rotation supporter open which characterized in that, it includes:

The rotary wheel disc is vertically arranged, and can rotate around the main axis of the rotary wheel disc;

The medicine bottle storage device comprises a storage platform, wherein a plurality of storage platforms are arranged at the rim of a rotating wheel disc, the storage platforms are hinged to the rotating wheel disc, the hinge axes of the storage platforms are parallel to a main axis, a plurality of storage spaces for containing medicine bottles are formed in the upper surfaces of the storage platforms, the medicine bottles are used for containing medicine for disassembling, the storage spaces are in a circular truncated cone-shaped through hole shape with the size of the upper part and the lower part, the storage spaces penetrate through the lower surface of the storage platforms, the top diameter of the storage spaces is larger than the bottle bottom diameter of the medicine bottles, and the bottom diameter of the storage spaces is smaller than the bottle bottom diameter of the medicine bottles.

2. The zero drug rotation shelf of claim 1 further comprising a hole slot, said hole slot being cup-shaped, said hole slot being nested in said bin in a vertically downward direction, a slot inner wall of said hole slot being configured to receive said drug vial, said slot inner wall being foldable to reduce an inner diameter.

3. The zero drug rotation shelf of claim 2 wherein the aperture is comprised of an elastomeric silicone material, the outer wall of the aperture being in contact with the side wall of the bin.

4. The zero drug rotation shelf of claim 2 wherein the opening of the slot is provided with a horizontally outwardly extending flange structure having an outer diameter greater than the top diameter of the bin.

5. The zero removal medicine rotating shelf as claimed in claim 1, further comprising a main shaft and two supporting parts, wherein the two supporting parts are symmetrically arranged, two ends of the main shaft are respectively connected with the two supporting parts, the number of the rotating wheel discs is two, and the two rotating wheel discs are respectively sleeved at two ends of the main shaft and are positioned between the two supporting parts;

the object placing platform is arranged between the two rotating wheel discs.

6. The zero drug rotation rack of claim 5, wherein the support comprises two triangular brackets, and two ends of the main shaft are respectively connected with the top ends of the two triangular brackets;

The triangular bracket further comprises a sucker, wherein the sucker is arranged at the bottom of the triangular bracket, a plurality of suckers are arranged at the bottom of the triangular bracket, and the surface of the sucker faces downwards.

7. The zero drug rotation shelf of claim 5 wherein the rotating disk comprises a hub and spoke;

The hub is used for being matched with the main shaft, and comprises a first bearing;

The spoke with put thing platform one-to-one sets up, a plurality of the spoke with wheel hub is radial arrangement as the center, the one end of spoke with wheel hub is fixed, the other end of spoke with corresponding put thing platform and pass through the second bearing and articulate, put thing platform with spoke articulated department is equipped with axle construction and bearing frame, the axle construction with the second bearing cooperation, the bearing frame is used for holding the second bearing.

8. The zero drug rotation rack of claim 7, wherein the two ends of the main shaft are respectively provided with a first limit part, and the tail end of the shaft structure of the object placement platform is provided with a second limit part.

9. The zero removal drug rotation shelf of claim 1, wherein the storage platform is of a hollow structure and comprises a nesting portion, the nesting portion is planar and comprises a first additional bin for accommodating the drug bottle, the first additional bin is of a truncated cone-shaped through hole with a big top and a small bottom, and the nesting portion can be pulled out or retracted through the upper surface and the lower surface of the nesting portion:

when the nesting part is in the extraction state, the plane of the nesting part is parallel to the object placing platform and is in lap joint fixation;

when the nesting part is in a stowage state, the nesting part is nested in the hollow part of the object placing platform, and the first additional bin of the nesting part coincides with the bin of the object placing platform.

10. The zero drug rotation shelf of claim 1 wherein the storage platform comprises a fold portion which is planar and comprises a second additional bin for receiving the drug vial, the second additional bin being in the shape of a large-top-small truncated cone-shaped through hole, the fold portion being capable of being unfolded or folded through the upper and lower surfaces of the fold portion:

When the folding part is in an unfolding state, the plane of the folding part is parallel to the object placing platform and is in lap joint fixation;

When the folding portion is in a folded state, the folding portion is folded up and cannot be used to receive the medicine bottle.