CN115055090A - Nursing is with rotatory flexible parcel location type medicine oscillator of formula of extruding - Google Patents

Abstract

The invention discloses a rotary extrusion type flexible package positioning type medicine oscillator for nursing, which comprises a rotary extrusion type medium package flexible positioning assembly, a dynamic oscillation transmission mechanism, an oscillation driving assembly, a conveying trolley, a front roller, a front support plate and a front connecting shaft. The invention belongs to the field of medical drug oscillation, and particularly relates to a rotary extrusion type flexible wrapping positioning type drug oscillator for nursing; aiming at the contradictory characteristics that the medicament bottle made of glass is clamped when the medicament bottle is oscillated and the medicament bottle cannot be directly clamped by adopting a conventional scheme, the invention provides the rotary extrusion type medium-wrapped flexible positioning assembly, so that the whole medicament bottle body can be stably positioned when the medicament bottle oscillates in a reciprocating circular motion, a good buffering protection effect can be provided for the medicament bottle, and the medicament bottle can be prevented from falling off when the medicament bottle vibrates.

Description

Nursing is with rotatory flexible parcel location type medicine oscillator of formula of extruding

Technical Field

The invention belongs to the technical field of medical drug oscillation, and particularly relates to a rotary extrusion type flexible wrapping positioning type drug oscillator for nursing.

Background

The traditional medicine oscillator utilizes the rotation principle to generate vortex flow for the solution in a test tube or a reagent bottle inserted into a hole, thereby achieving the purposes of accelerating dissolution and uniform mixing.

The medicine oscillator itself of current nursing usefulness is bulky, and the quality is great, can only fix and place and use in specific space, is difficult to remove, and need carry to nursing administrative or technical offices through the dolly after oscillating the medicine again, wastes time and energy, in addition, need clip the medicament bottle of glass material earlier when the oscillation, the damage of medicament bottle is caused easily at mechanical oscillation in-process to the clamp mode of current oscillator, the event needs to propose a nursing with rotatory flexible parcel locate mode medicine oscillator of extruding of formula.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a rotary extrusion type flexible wrapping positioning type medicine oscillator for nursing, which effectively solves the technical problems that medicine oscillation equipment cannot move during working, is difficult to protect a medicine bottle during oscillation and has poor oscillation effect in the current market.

The technical scheme adopted by the invention is as follows: the invention provides a rotary extrusion type flexible package positioning type medicine oscillator for nursing, which comprises a rotary extrusion type medium package flexible positioning assembly, a dynamic oscillation transmission mechanism, an oscillation driving assembly, a conveying trolley, front rollers, front supporting plates and front connecting shafts, wherein the oscillation driving assembly is arranged on the conveying trolley, the dynamic oscillation transmission mechanism is arranged on the oscillation driving assembly in a transmission connection mode, the rotary extrusion type medium package flexible positioning assembly is arranged on the dynamic oscillation transmission mechanism, the front supporting plates are divided into two groups and fixedly connected onto the conveying trolley, the front connecting shafts are arranged between the front supporting plates in a penetrating and rotating mode, the front rollers are arranged on the front connecting shafts, and the oscillation driving assembly is connected onto the front connecting shafts in a transmission mode.

Preferably, the flexible locating component of formula medium parcel is extruded in the rotation includes that clean flexible glue, jar form hold shell, medicament bottle holding tank, outside linking arm, drive micromotor, drive pinion, slow gear wheel, outside driving tooth, drive inner ring gear, inboard pinion, the locating plate that opens and shuts, arc contact surface, clean glue holding tank, inside and outside intercommunication groove, arc slip table, toper extruded article, the inboard through-hole in bottom and inside wall through-hole, jar form holds the shell and locates on the dynamic oscillation drive mechanism, medicament bottle holding tank is located in jar form holds the shell, the bottom that the shell was held to jar form does not run through, outside linking arm rigid coupling is on the outer wall that the shell was held to jar form, the fuselage of drive micromotor is located on the outside linking arm, drive pinion connects on the output of drive micromotor, slow gear wheel rotates and locates the top of outside linking arm, the embedded rotation of the inner gear ring in the transmission is arranged at the top of the can-shaped containing shell, the transmission gear at the outer side is arranged on the side wall of the inner gear ring in the transmission, the array of the small gears at the inner side is arranged at the top of the can-shaped containing shell in the rotation, the opening and closing positioning plate is fixedly connected on the shaft of the small gears at the inner side, the arc contact surface is arranged on the opening and closing positioning plate, the cleaning glue containing groove is arranged in the can-shaped containing shell, the inner and outer communicating grooves are arranged at the top of the can-shaped containing shell, the inner and outer communicating grooves communicate the cleaning glue containing groove with the outside, the embedded sliding of the arc sliding table is arranged on the inner and outer communicating grooves and the cleaning glue containing groove, the conical extrusion piece is fixedly connected at the top of the arc sliding table, the inner side through hole at the bottom is communicated with the bottom wall in the can-shaped containing shell, the inner side through hole is communicated with the side wall in the can-shaped containing shell, the inside wall through-hole makes clean holding tank and external intercommunication of gluing, clean flexible glue is filled and is located in the clean holding tank of gluing.

Further, the dynamic oscillation transmission mechanism comprises a T-shaped support plate, a vibration driving turntable, a reciprocating circumferential sliding block, a reciprocating guide groove, a T-shaped reciprocating sliding frame, a sliding guide frame, a reciprocating rotation special-shaped piece, a special-shaped piece rotating shaft, a top bearing turntable, a first fixed guide column, a second fixed guide column, a third fixed guide column, a fourth fixed guide column, a fifth fixed guide column, a first transmission guide groove, a second transmission guide groove, a third transmission guide groove and a fourth transmission guide groove, the T-shaped support plate is fixedly connected to the top of the conveying cart, the vibration driving turntable is arranged on the oscillation driving assembly, the sliding guide frame is fixedly connected onto the T-shaped support plate, the T-shaped reciprocating sliding frame is embedded and slidably arranged on the sliding guide frame, the reciprocating guide groove is arranged on the T-shaped reciprocating sliding frame, one end of the reciprocating circumferential sliding block is arranged on the vibration driving turntable, the other end of the reciprocating circular slide block is embedded and slidably arranged in a reciprocating guide groove, the special-shaped part rotating shaft is arranged on a T-shaped reciprocating sliding frame in a penetrating and rotating manner, the reciprocating rotating special-shaped part is fixedly connected to the special-shaped part rotating shaft, the top bearing turntable is fixedly connected to the special-shaped part rotating shaft, the first fixed guide post is fixedly connected to a T-shaped support plate, the second fixed guide post is fixedly connected to a T-shaped support plate, the third fixed guide post is fixedly connected to the T-shaped support plate, the fourth fixed guide post is fixedly connected to the T-shaped support plate, the fifth fixed guide post is fixedly connected to the T-shaped support plate, the first transmission guide groove is arranged on the reciprocating rotating special-shaped part, the second transmission guide groove is arranged on the reciprocating rotating special-shaped part, the third transmission guide groove is arranged on the reciprocating rotating special-shaped part, and the fourth transmission guide groove is arranged on the reciprocating rotating special-shaped part, when the reciprocating rotation special-shaped piece moves, the rotation is realized through the first transmission guide groove, the second transmission guide groove, the third transmission guide groove and the fourth transmission guide groove.

The vibration driving assembly comprises an auxiliary supporting plate, a first bevel gear, a second bevel gear, a first synchronous wheel, a second synchronous wheel and a synchronous belt, wherein the first synchronous wheel penetrates through and is fixedly arranged on a front connecting shaft, the auxiliary supporting plate is fixedly connected to the bottom of the T-shaped supporting plate, the second synchronous wheel is rotatably arranged on the auxiliary supporting plate, the first bevel gear is rotatably arranged on the auxiliary supporting plate and is connected with the second synchronous wheel, the second bevel gear is meshed with the first bevel gear, the shaft of the second bevel gear rotates and penetrates through the T-shaped supporting plate and is fixedly connected to the vibration driving turntable, and the synchronous belt is connected to the first synchronous wheel and the second synchronous wheel.

Furthermore, a handle is arranged on the conveying trolley.

In order to realize smoothly that the automation of clean flexible glue in the clean holding tank is extruded, open and shut the locating plate and contact and drive the arc slip table through the toper extruded piece and slide with the toper extruded piece when rotating.

In order to enable the rotary extrusion type medium wrapping flexible positioning assembly to operate smoothly, the driving pinion is in meshed connection with the retarding bull gear, the retarding bull gear is in meshed connection with the outer side transmission teeth, and the inner side pinion is in meshed connection with the transmission inner gear ring.

In order to realize the oscillation effect of the medicine through the dynamic oscillation transmission mechanism, the tank-shaped containing shell is fixedly connected to the top bearing turntable.

In order to improve the efficiency of medicine oscillation, reciprocating rotation dysmorphism piece, dysmorphism piece axis of rotation, top bear the carousel, fixed guide post one, fixed guide post two, fixed guide post three, fixed guide post four, fixed guide post five, transmission guide way one, transmission guide way two, transmission guide way three and transmission guide way four symmetries are equipped with two sets ofly.

In order to protect the vial from vibration, the arcuate contact surface is made of a rubber material.

In order to smoothly realize the reciprocating rotation of the reciprocating rotation special-shaped part during the movement, the first transmission guide groove, the second transmission guide groove, the third transmission guide groove and the fourth transmission guide groove are arc-shaped grooves, and the first fixed guide post, the second fixed guide post, the third fixed guide post, the fourth fixed guide post and the fifth fixed guide post are matched with the first transmission guide groove, the second transmission guide groove, the third transmission guide groove and the fourth transmission guide groove in size.

The invention with the structure has the following beneficial effects: this scheme provides a flexible parcel locate mode medicine oscillator of formula is extruded in rotation to nursing, has effectively solved medicine oscillation equipment in the existing market and can't remove at the during operation, be difficult to provide the protection, vibrate the not good enough technical problem of effect for the medicament bottle when oscillating, and this kind of method possesses following advantage:

(1) the invention aims at the contradictory characteristics that when oscillating a medicament bottle, the medicament bottle made of glass materials is clamped, and the medicament bottle can not be directly clamped by a conventional scheme, and provides a rotary extrusion type medium-wrapped flexible positioning assembly The bottom inner side through hole is formed in the bottom, part of the clean soft glue is continuously extruded outwards through the bottom inner side through hole and the inner side wall through hole, the extruded clean soft glue is gradually contacted with the medicament bottle in the medicament bottle accommodating groove, a protective layer formed by the extruded clean soft glue is automatically formed between the medicament bottle and the inner wall of the medicament bottle accommodating groove, the clean soft glue has better elasticity and viscosity, the whole medicament bottle body can be stably positioned when the medicament bottle oscillates in a reciprocating circular motion, a good buffering protection effect can be provided for the medicament bottle, the medicament bottle can be prevented from falling off in vibration, and the scheme can simultaneously realize the positioning and protection effects of the fragile medicament bottle without the aid of the existing clamping mode;

(2) through the mutual matching of the dynamic oscillation transmission mechanism and the oscillation driving assembly, the synchronous wheel II can be driven to rotate through the synchronous belt during movement, the bevel gear drives the bevel gear II to rotate, then the oscillation driving turntable rotates, the reciprocating circumferential slide block on the oscillation driving turntable rotates circumferentially along with the bevel gear II, the T-shaped reciprocating slide frame is driven to slide on the sliding guide frame in a reciprocating manner through the reciprocating guide groove, the reciprocating rotating special-shaped pieces on two sides are driven to reciprocate while reciprocating forward and backward switching rotation is carried out, the top bearing turntable is driven to synchronously move through the rotating shaft of the special-shaped pieces, the oscillation effect of the medicament bottle on the top bearing turntable is realized, and under the condition of not using an additional power source, the oscillation effect of the medicament bottle can be realized only by pushing the conveying trolley, so that the time and labor are saved;

(3) after the oscillation work is finished, the cleaning soft rubber is easy to clean and convenient to recycle;

(4) the medicine oscillation mode realized by the dynamic oscillation transmission mechanism and the oscillation driving assembly does not need an additional power source, and the oscillation effect is automatically stopped after the conveying trolley is pushed to a destination and is stopped, so that the medicine oscillation and stop device is different from the working process that the medicine oscillation and stop can be carried out by repeatedly operating a control panel by the conventional oscillator.

Drawings

Fig. 1 is a schematic structural view of a rotary extrusion type flexible package positioning type drug oscillator for nursing provided by the present invention;

FIG. 2 is a front sectional view of a rotary extrusion type flexible package positioning type drug oscillator for nursing provided by the present invention;

FIG. 3 is a schematic top view of the dynamic oscillatory transmission provided in the present invention;

FIG. 4 is a first sectional top view of the dynamic oscillatory transmission provided in accordance with the present invention in its initial state;

FIG. 5 is a top sectional view of a first state of operation of the dynamic oscillatory transmission provided in accordance with the present invention;

FIG. 6 is a top sectional view of the second operating state of the dynamic oscillatory transmission provided in accordance with the present invention;

FIG. 7 is a second sectional top view of the dynamic oscillatory transmission of the present invention in its initial state;

FIG. 8 is a schematic front view of a rotary extrusion-type media-wrapped flexible positioning assembly, a dynamic oscillation transmission mechanism, and an oscillation driving assembly according to the present invention;

FIG. 9 is a schematic top view of an oscillating drive assembly provided in accordance with the present invention;

FIG. 10 is a schematic top view of a rotating extruded media pack flexible positioning assembly provided by the present invention;

FIG. 11 is a perspective view of a portion of a rotating extruded media pack flexible positioning assembly in accordance with the present invention;

FIG. 12 is a schematic view of the internal structure of a portion of a rotary extruded media-wrapped flexible positioning assembly provided in accordance with the present invention;

FIG. 13 is a front view of a rotary extruded media pack flexible positioning assembly provided by the present invention;

FIG. 14 is a top cross-sectional view of a rotating extruded media pack flexible positioning assembly provided in accordance with the present invention;

FIG. 15 is a top sectional view of a rotating extruded media pack flexible positioning assembly according to the present invention.

Wherein, 1, a rotary extrusion type medium wrapping flexible positioning component, 2, a dynamic oscillation transmission mechanism, 3, an oscillation driving component, 4, a conveying trolley, 5, a preposed idler wheel, 6, a preposed support plate, 7, a preposed connecting shaft, 8, a cleaning soft glue, 9, a tank-shaped containing shell, 10, a medicament bottle containing groove, 11, an outer connecting arm, 12, a driving small motor, 13, a driving small gear, 14, a retarding large gear, 15, an outer driving gear, 16, a driving inner gear ring, 17, an inner small gear, 18, an opening and closing positioning plate, 19, an arc contact surface, 20, a cleaning glue containing groove, 21, an inner and outer communicating groove, 22, an arc sliding table, 23, a conical extrusion piece, 24, a bottom inner side through hole, 25, an inner side wall through hole, 26, a T-shaped support plate, 27, a vibration driving turntable, 28, a reciprocating circumferential slide block, 29, a reciprocating guide groove, 30, a T-shaped reciprocating sliding frame, 31. the device comprises a sliding guide frame, 32, a reciprocating rotation special-shaped piece, 33, a special-shaped piece rotating shaft, 34, a top bearing rotary table, 35, a first fixed guide post, 36, a second fixed guide post, 37, a third fixed guide post, 38, a fourth fixed guide post, 39, a fifth fixed guide post, 40, a first transmission guide groove, 41, a second transmission guide groove, 42, a third transmission guide groove, 43, a fourth transmission guide groove, 44, an auxiliary support plate, 45, a first bevel gear, 46, a second bevel gear, 47, a first synchronizing wheel, 48, a second synchronizing wheel, 49, a synchronous belt, 50 and a handle.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in figures 1-2, the invention provides a rotary extrusion type flexible package positioning type medicine oscillator for nursing, which comprises a rotary extrusion type medium package flexible positioning component 1, a dynamic oscillation transmission mechanism 2, an oscillation driving component 3, a conveying cart 4, a front roller 5, a front support plate 6 and a front connecting shaft 7, the oscillation driving component 3 is arranged on the conveying trolley 4, the dynamic oscillation transmission mechanism 2 is connected on the oscillation driving component 3 in a transmission way, the rotary extrusion type medium wrapping flexible positioning component 1 is arranged on the dynamic oscillation transmission mechanism 2, the front supporting plates 6 are fixedly connected on the conveying trolley 4 in two groups, the front connecting shaft 7 is arranged between the front supporting plates 6 in a penetrating and rotating way, the front idler wheel 5 is arranged on a front connecting shaft 7, and the oscillation driving component 3 is in transmission connection with the front connecting shaft 7.

As shown in fig. 3 and fig. 10-fig. 15, the rotary extrusion type medium-wrapped flexible positioning assembly 1 comprises a cleaning soft glue 8, a tank-shaped housing 9, a medicine bottle housing groove 10, an outer side connecting arm 11, a small driving motor 12, a small driving gear 13, a large retarding gear 14, an outer side driving gear 15, a transmission inner gear ring 16, an inner side pinion 17, an opening and closing positioning plate 18, an arc contact surface 19, a cleaning glue housing groove 20, an inner and outer communicating groove 21, an arc sliding table 22, a conical extrusion part 23, a bottom inner side through hole 24 and an inner side wall through hole 25, wherein the tank-shaped housing 9 is arranged on the dynamic oscillation transmission mechanism 2, the medicine bottle housing groove 10 is arranged in the tank-shaped housing 9, the bottom of the tank-shaped housing 9 is not penetrated, the outer side connecting arm 11 is fixedly connected to the outer wall of the tank-shaped housing 9, the body of the small driving motor 12 is arranged on the outer side connecting arm 11, drive pinion 13 connects on the output of little motor 12 of drive, the top of outside linking arm 11 is located in the rotation of slow gear wheel 14, ring gear 16 gomphosis rotates the top of locating jar form and holding shell 9 in the transmission, outside driving gear 15 is located on the lateral wall of ring gear 16 in the transmission, inboard pinion 17 array rotates the top of locating jar form and holding shell 9, 18 rigid couplings of locating plate open and shut are epaxial in inboard pinion 17, arc contact surface 19 is located on the locating plate 18 that opens and shuts, clean glue holding tank 20 is located in jar form holds shell 9, inside and outside intercommunication groove 21 is located the top that jar form held shell 9, inside and outside intercommunication groove 21 makes clean glue holding tank 20 and external intercommunication, arc slip table 22 gomphosis slides and locates on inside and outside intercommunication groove 21 and clean glue holding tank 20, toper extrusion part 23 rigid coupling is on arc sliding table 22's top, inboard through-hole 24 in bottom link up locate the tank form hold on the diapire in the shell 9, inboard through-hole 24 in bottom makes clean holding tank 20 and external intercommunication of gluing, inside wall through-hole 25 link up locate the tank form hold on the lateral wall in the shell 9, inside wall through-hole 25 makes clean holding tank 20 and external intercommunication of gluing, clean flexible glue 8 is filled and is located in clean holding tank 20 of gluing.

As shown in fig. 1 to 7, the dynamic oscillation transmission mechanism 2 includes a T-shaped support plate 26, a vibration driving turntable 27, a reciprocating circumferential slider 28, a reciprocating guide groove 29, a T-shaped reciprocating carriage 30, a sliding guide frame 31, a reciprocating rotation special-shaped member 32, a special-shaped member rotation shaft 33, a top bearing turntable 34, a fixed guide post one 35, a fixed guide post two 36, a fixed guide post three 37, a fixed guide post four 38, a fixed guide post five 39, a transmission guide groove one 40, a transmission guide groove two 41, a transmission guide groove three 42 and a transmission guide groove four 43, the T-shaped support plate 26 is fixedly connected to the top of the conveying cart 4, the vibration driving turntable 27 is provided on the oscillation driving component 3, the sliding guide frame 31 is fixedly connected to the T-shaped support plate 26, the T-shaped reciprocating carriage 30 is slidably fitted on the sliding guide frame 31, the reciprocating guide groove 29 is provided on the T-shaped reciprocating carriage 30, the one end of reciprocal circumference slider 28 is located on vibration drive carousel 27, the other end gomphosis of reciprocal circumference slider 28 slides and locates in reciprocal guide way 29, dysmorphism axis of rotation 33 runs through to rotate and locates on the reciprocal carriage 30 of T font, reciprocal rotation dysmorphism 32 rigid coupling is on dysmorphism axis of rotation 33, top bears the carousel 34 rigid coupling on dysmorphism axis of rotation 33, fixed guide post 35 rigid coupling is on T font backup pad 26, fixed guide post two 36 rigid couplings are on T font backup pad 26, fixed guide post three 37 rigid couplings are on T font backup pad 26, fixed guide post four 38 rigid couplings are on T font backup pad 26, fixed guide post five 39 rigid couplings are on T font backup pad 26, transmission guide way one 40 is located reciprocal rotation dysmorphism 32, transmission guide way two 41 is located reciprocal rotation dysmorphism 32, the three transmission guide grooves 42 are arranged on the reciprocating rotation special-shaped piece 32, the four transmission guide grooves 43 are arranged on the reciprocating rotation special-shaped piece 32, and the reciprocating rotation special-shaped piece 32 moves to rotate through the first transmission guide groove 40, the second transmission guide groove 41, the three transmission guide grooves 42 and the four transmission guide grooves 43.

As shown in fig. 1, 2 and 9, the oscillation driving assembly 3 includes an auxiliary supporting plate 44, a first bevel gear 45, a second bevel gear 46, a first synchronizing wheel 47, a second synchronizing wheel 48 and a synchronous belt 49, the first synchronizing wheel 47 is fixedly connected to the front connecting shaft 7 in a penetrating manner, the auxiliary supporting plate 44 is fixedly connected to the bottom of the T-shaped supporting plate 26, the second synchronizing wheel 48 is rotatably arranged on the auxiliary supporting plate 44, the first bevel gear 45 is connected to the second synchronizing wheel 48, the second bevel gear 46 is connected to the first bevel gear 45 in a meshing manner, a shaft of the second bevel gear 46 is rotatably connected to the T-shaped supporting plate 26 and fixedly connected to the oscillation driving turntable 27, and the synchronous belt 49 is connected to the first synchronizing wheel 47 and the second synchronizing wheel 48.

As shown in fig. 1 and 2, the transport cart 4 is provided with a handle 50.

As shown in fig. 13 and 14, in order to successfully realize the automatic extrusion of the cleaning soft glue 8 in the cleaning glue accommodating groove 20, the opening and closing positioning plate 18 is in contact with the tapered extrusion part 23 when rotating and drives the arc-shaped sliding table 22 to slide through the tapered extrusion part 23.

As shown in fig. 10-12, in order to make the rotating extrusion type medium wrapping flexible positioning assembly 1 operate smoothly, the driving pinion 13 and the buffer gear 14 are in meshed connection, the buffer gear 14 and the outer transmission gear 15 are in meshed connection, and the inner pinion 17 and the inner transmission gear ring 16 are in meshed connection.

As shown in fig. 1-3, the can-like housing 9 is affixed to a top carrier turntable 34 in order to achieve the oscillating effect of the drug by means of the dynamic oscillation gear 2.

As shown in fig. 4-7, in order to improve the efficiency of drug oscillation, two sets of reciprocating shaped piece 32, shaped piece rotating shaft 33, top bearing turntable 34, first fixed guide post 35, second fixed guide post 36, third fixed guide post 37, fourth fixed guide post 38, fifth fixed guide post 39, first transmission guide slot 40, second transmission guide slot 41, third transmission guide slot 42 and fourth transmission guide slot 43 are symmetrically arranged, in order to smoothly realize the reciprocating rotation of the reciprocating rotation special-shaped piece 32 during the movement, the first transmission guide groove 40, the second transmission guide groove 41, the third transmission guide groove 42 and the fourth transmission guide groove 43 are arc-shaped grooves, the first fixed guide post 35, the second fixed guide post 36, the third fixed guide post 37, the fourth fixed guide post 38 and the fifth fixed guide post 39 are matched with the first transmission guide groove 40, the second transmission guide groove 41, the third transmission guide groove 42 and the fourth transmission guide groove 43 in size.

As shown in fig. 11, the arcuate contact surface 19 is made of a rubber material in order to protect the vial during oscillation.

When the device is used specifically, a user firstly places a medicament bottle to be oscillated in the medicament bottle accommodating groove 10, the medicament bottle is matched with the medicament bottle accommodating groove 10 in size but still has a small gap, then the small driving motor 12 is started, the small driving gear 13 drives the large retarding gear 14 to rotate, the inner transmission gear 15 drives the inner transmission gear ring 16 to be embedded and rotated on the tank-shaped accommodating shell 9, the inner transmission gear ring 16 drives the inner pinion 17 to rotate, the five-group opening and closing positioning plate 18 is firstly contacted with the side surface of the conical extrusion piece 23 when rotating and closing, downward force is applied to the conical extrusion piece 23 when the opening and closing positioning plate 18 continues to rotate, then the conical extrusion piece 23 is driven to press downwards, then the arc-shaped sliding table 22 slides downwards embedded and rotated along the cleaning glue accommodating groove 20 and the inner and outer communicating grooves 21, so that the arc-shaped sliding table 22 extrudes the cleaning soft glue 8 in the cleaning glue accommodating groove 20, so that a part of the clean soft rubber 8 is extruded to the inner side wall through hole 25 of the inner side edge of the medicament bottle holding tank 10 and the inner side through hole 24 of the bottom from the clean rubber holding tank 20, and the part of the clean soft rubber 8 is continuously extruded outwards through the inner side through hole 24 of the bottom and the inner side wall through hole 25, the extruded clean soft rubber 8 gradually contacts the outer wall of the medicament bottle in the medicament bottle holding tank 10, a protective layer formed by the extruded clean soft rubber 8 is automatically formed between the medicament bottle and the gap of the medicament bottle holding tank 10, the clean soft rubber 8 has better elasticity and viscosity, when the medicament bottle reciprocates and oscillates, the whole medicament bottle body can be stably positioned, so that the medicament bottle is difficult to generate relative displacement, and good buffer protection effect can be provided for the medicament bottle, the clean soft rubber 8 sticks to the medicament bottle in the oscillation process, and can also prevent the medicament bottle from falling off during the oscillation, the rotating speed output on the transmission inner gear ring 16 is reduced after the transmission of the driving pinion 13 and the retarding bull gear 14, so that the inner pinion 17 rotates slowly, the opening and closing positioning plate 18 is positioned at the bottleneck of the medicament bottle slowly through the arc-shaped contact surface 19, the arc-shaped contact surface 19 made of rubber materials can buffer the pressure on the medicament bottle and prevent the medicament bottle from being broken, the rotary extrusion type medium wrapping flexible positioning assembly 1 is provided aiming at the contradictory characteristic that the medicament bottle made of glass is clamped when the medicament bottle is oscillated and the medicament bottle cannot be directly clamped by a conventional scheme, and the positioning and protecting effects of the fragile medicament bottle are simultaneously realized without the aid of the conventional clamping mode; when the transport cart 4 is moved by the handle 50, the front roller 5 rotates to rotate the front connecting shaft 7, so that the first synchronizing wheel 47 rotates, the second synchronizing wheel 48 rotates by the synchronous belt 49, the second bevel gear 46 rotates by the first bevel gear 45, so that the rotary table 27 rotates, the reciprocating circular slide block 28 on the rotary table 27 rotates circularly, the T-shaped reciprocating carriage 30 is driven to slide on the sliding guide frame 31 in a reciprocating manner by the reciprocating guide groove 29, so that the reciprocating special-shaped members 32 on both sides reciprocate, in the process, the four transmission guide grooves 43 on the reciprocating special-shaped members 32 are positioned on the first fixed guide posts 35 and the three transmission guide grooves 42 are positioned on the second fixed guide posts 36 in the initial state, at the moment, when the T-shaped reciprocating carriage 30 does not move, the reciprocating special-shaped members 32 do not rotate, and when the T-shaped reciprocating carriage 30 slides forwards, the reciprocating rotating special-shaped piece 32 is driven to synchronously move, so that the transmission guide groove four 43 is gradually separated from the fixed guide post one 35, the reciprocating rotating special-shaped piece 32 moves on the fixed guide post two 36 through the transmission guide groove three 42 when sliding, namely, the reciprocating rotating special-shaped piece 32 rotates ninety degrees while sliding forwards, the T-shaped reciprocating sliding frame 30 continuously slides forwards, the transmission guide groove two 41 is gradually positioned on the fixed guide post three 37, when the T-shaped reciprocating sliding frame 30 slides forwards again, the transmission guide groove two 41 is gradually separated from the fixed guide post three 37, the reciprocating rotating special-shaped piece 32 continuously rotates, so that the transmission guide groove one 40 is gradually clamped on the fixed guide post four 38, the transmission guide groove four 43 is gradually clamped on the fixed guide post five 39, the one-hundred-eighty-degree rotation of the reciprocating rotating special-shaped piece 32 is completed, and the T-shaped reciprocating sliding frame 30 reversely slides at the moment, so that the reciprocating special-shaped piece 32 rotates to the initial state, i.e. the reciprocating T-shaped reciprocating sliding frame 30 drives the reciprocating special-shaped piece 32 at two sides to reciprocate and switch forward and backward at the same time, the special-shaped piece rotating shaft 33 synchronously moves along with the reciprocating special-shaped piece 32, so that the top bearing rotary disc 34 synchronously moves, namely, the medicament bottle is driven to reciprocate and switch forward and backward at the same time, thereby achieving excellent medicament oscillation effect, the oscillation effect of the medicament bottle can be realized only by pushing the conveying cart 4, the time and the labor are saved, the medicament oscillation mode realized by the dynamic oscillation transmission mechanism 2 and the oscillation driving component 3 designed by the invention does not need an additional power source, and the oscillation effect stops automatically after the conveying trolley 4 is pushed to the destination and stops, which is different from the working process that the traditional oscillator can oscillate and stop the medicine only by repeatedly operating the control panel.

Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a nursing is with rotatory flexible parcel locate mode medicine oscillator of formula of extruding which characterized in that: comprises a rotary extrusion type medium wrapping flexible positioning component (1), a dynamic oscillation transmission mechanism (2), an oscillation driving component (3), a conveying cart (4), a preposed roller (5), a preposed support plate (6) and a preposed connecting shaft (7), the oscillation driving component (3) is arranged on the conveying trolley (4), the dynamic oscillation transmission mechanism (2) is arranged on the oscillation driving component (3) in a transmission connection way, the rotary extrusion type medium wrapping flexible positioning component (1) is arranged on the dynamic oscillation transmission mechanism (2), the front supporting plates (6) are fixedly connected on the conveying trolley (4) in two groups, the front connecting shaft (7) is arranged between the front supporting plates (6) in a penetrating and rotating way, the front idler wheel (5) is arranged on the front connecting shaft (7), and the oscillation driving component (3) is in transmission connection with the front connecting shaft (7).

2. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 1, wherein: the rotary extrusion type medium wrapping flexible positioning assembly (1) comprises a cleaning soft rubber (8), a tank-shaped accommodating shell (9), a medicament bottle accommodating groove (10), an outer side connecting arm (11), a small driving motor (12), a small driving gear (13), a slow speed gear wheel (14), outer side transmission teeth (15), a transmission inner gear ring (16), an inner side gear wheel (17), an opening and closing positioning plate (18), an arc contact surface (19), a cleaning glue accommodating groove (20), an inner and outer communicating groove (21), an arc sliding table (22), a conical extrusion piece (23), a bottom inner side through hole (24) and an inner side wall through hole (25), wherein the tank-shaped accommodating shell (9) is arranged on the dynamic oscillation transmission mechanism (2), the medicament bottle accommodating groove (10) is arranged in the tank-shaped accommodating shell (9), the bottom of the tank-shaped accommodating shell (9) is not penetrated, the outer side connecting arm (11) is fixedly connected on the outer wall of the tank-shaped accommodating shell (9), the fuselage of drive micromotor (12) is located on outside linking arm (11), drive pinion (13) is connected on the output of drive micromotor (12), slow gear wheel (14) rotate and locate the top of outside linking arm (11), ring gear (16) gomphosis rotates and locates the top that the shell (9) was held to the jar form in the transmission, outside driving tooth (15) are located on the lateral wall of ring gear (16) in the transmission, the top that shell (9) was held to the jar form is located in inboard pinion (17) array rotation, locating plate (18) rigid coupling is epaxial in inboard pinion (17) opens and shuts, arc contact surface (19) are located on locating plate (18) opens and shuts, clean gluey holding tank (20) are located in the jar form holds shell (9), inside and outside intercommunication groove (21) are located the top that the shell (9) was held to the jar form, inside and outside intercommunication groove (21) make clean gluey holding tank (20) and external intercommunication, arc slip table (22) gomphosis slides and locates on inside and outside intercommunication groove (21) and clean gluey holding tank (20), toper extruded article (23) rigid coupling is at the top of arc slip table (22), inboard through-hole (24) in bottom link up and locate on the jar form holds the diapire in shell (9), inboard through-hole (24) in bottom make clean gluey holding tank (20) and external intercommunication, inside wall through-hole (25) link up and locate the jar form hold on the lateral wall in shell (9), inside wall through-hole (25) make clean gluey holding tank (20) and external intercommunication, clean flexible glue (8) are filled and are located in clean gluey holding tank (20).

3. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 2, wherein: the dynamic oscillation transmission mechanism (2) comprises a T-shaped support plate (26), a vibration driving turntable (27), a reciprocating circumferential sliding block (28), a reciprocating guide groove (29), a T-shaped reciprocating sliding frame (30), a sliding guide frame (31), a reciprocating rotation special-shaped piece (32), a special-shaped piece rotating shaft (33), a top bearing turntable (34), a fixed guide post I (35), a fixed guide post II (36), a fixed guide post III (37), a fixed guide post IV (38), a fixed guide post V (39), a transmission guide groove I (40), a transmission guide groove II (41), a transmission guide groove III (42) and a transmission guide groove IV (43), the T-shaped support plate (26) is fixedly connected to the top of the conveying trolley (4), the vibration driving turntable (27) is arranged on the oscillation driving component (3), the sliding guide frame (31) is fixedly connected to the T-shaped support plate (26), the reciprocal carriage of T font (30) gomphosis slides and locates on sliding guide (31), reciprocal guide way (29) is located on the reciprocal carriage of T font (30), the one end of reciprocal circumference slider (28) is located on vibration drive carousel (27), the other end gomphosis of reciprocal circumference slider (28) slides and locates in reciprocal guide way (29), dysmorphism axis of rotation (33) runs through to rotate and locates on the reciprocal carriage of T font (30), reciprocal rotation dysmorphism (32) rigid coupling is on dysmorphism axis of rotation (33), the top bears carousel (34) rigid coupling on dysmorphism axis of rotation (33), fixed guide post (35) rigid coupling is on T font backup pad (26), fixed guide post (36) rigid coupling is on T font backup pad (26), fixed guide post (37) rigid coupling is on T font backup pad (26), four (38) rigid couplings of fixed guide post are on T font backup pad (26), five (39) rigid couplings of fixed guide post are on T font backup pad (26), reciprocal rotation dysmorphism piece (32) is located in transmission guide way (40), reciprocal rotation dysmorphism piece (32) is located in transmission guide way two (41), reciprocal rotation dysmorphism piece (32) is located in transmission guide way three (42), reciprocal rotation dysmorphism piece (32) is located in transmission guide way four (43), realize rotating through transmission guide way one (40), transmission guide way two (41), transmission guide way three (42) and transmission guide way four (43) when reciprocal rotation dysmorphism piece (32) removes.

4. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 3, wherein: the oscillation driving component (3) comprises an auxiliary supporting plate (44), a first bevel gear (45), a second bevel gear (46), a first synchronizing wheel (47), a second synchronizing wheel (48) and a synchronous belt (49), the synchronizing wheel I (47) is fixedly connected on the preposed connecting shaft (7) in a penetrating way, the auxiliary supporting plate (44) is fixedly connected at the bottom of the T-shaped supporting plate (26), the second synchronizing wheel (48) is rotationally arranged on the auxiliary supporting plate (44), the first bevel gear (45) is rotationally arranged on the auxiliary supporting plate (44), the bevel gear I (45) is connected with the synchronizing wheel II (48), the bevel gear II (46) is connected to the bevel gear I (45) in a meshing way, the shaft of the bevel gear II (46) is rotatably penetrated through the T-shaped supporting plate (26) and fixedly connected to the vibration driving turntable (27), the synchronous belt (49) is connected to the first synchronous wheel (47) and the second synchronous wheel (48).

5. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 4, wherein: the conveying trolley (4) is provided with a handle (50).

6. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 5, wherein: when the opening and closing positioning plate (18) rotates, the opening and closing positioning plate is in contact with the conical extrusion piece (23) and drives the arc-shaped sliding table (22) to slide through the conical extrusion piece (23).

7. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 6, wherein: meshing connection between drive pinion (13) and slow gear wheel (14), meshing connection between slow gear wheel (14) and outside driving tooth (15), meshing connection between inboard pinion (17) and the transmission inner gear ring (16).

8. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 7, wherein: the pot-shaped containing shell (9) is fixedly connected to the top bearing rotary table (34).

9. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 8, wherein: the reciprocating rotation special-shaped piece (32), the special-shaped piece rotating shaft (33), the top bearing turntable (34), a first fixed guide post (35), a second fixed guide post (36), a third fixed guide post (37), a fourth fixed guide post (38), a fifth fixed guide post (39), a first transmission guide groove (40), a second transmission guide groove (41), a third transmission guide groove (42) and a fourth transmission guide groove (43) are symmetrically provided with two groups.

10. The rotary extrusion type flexible package positioning type medicine oscillator for nursing according to claim 9, wherein: arc contact surface (19) are made by rubber materials, transmission guide way (40), transmission guide way two (41), transmission guide way three (42) and transmission guide way four (43) are the circular arc groove, fixed guide post (35), fixed guide post two (36), fixed guide post three (37), fixed guide post four (38), fixed guide post five (39) and transmission guide way one (40), transmission guide way two (41), transmission guide way three (42) and transmission guide way four (43) size are supporting.

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