CN111038778A

CN111038778A - Medical capsule bottle and can feeding mechanism and canning system

Info

Publication number: CN111038778A
Application number: CN201911205435.9A
Authority: CN
Inventors: 蔡斯达
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-04-21

Abstract

The invention discloses a medical capsule bottle and can feeding mechanism and a can system, which comprise a base, a capsule bottle sequential feeding device, a capsule bottle rotating and discharging device and a capsule bottle horizontal conveying device, wherein the capsule bottle sequential feeding device, the capsule bottle rotating and discharging device and the capsule bottle horizontal conveying device are respectively arranged on the base. The invention relates to a medical capsule bottle feeding mechanism and a filling system, wherein a base, a capsule bottle sequential feeding device, a capsule bottle rotating and discharging device and a capsule bottle horizontal conveying device are arranged, so that a medicine bottle can be stably placed, a capsule is filled into the medicine bottle, the problem of upside down placement of the bottle can is avoided, normal bottling operation can be realized, and the capsule bottling efficiency is improved.

Description

Medical capsule bottle and can feeding mechanism and canning system

Technical Field

The invention relates to the field of canned medicine systems, in particular to a medical capsule bottle feeding mechanism and a canning system.

Background

Gelatin capsules are the two-part capsules most popular in the world. The capsule consists of two sections of precisely processed capsule shells. The size of the capsules varies, including 000#, 00#, 0# -5 # -size capsules. The capsules may also be color printed to present a unique customized appearance. The body portion has a tapered edge to facilitate capsule packing on a high speed filling machine. The dual locking ring system allows the capsule to be pre-locked prior to filling and to be fully nested after filling. The capsule design also includes air vents to avoid bounce caused by unnecessary air pressure build up inside the capsule during high speed filling.

During the production of the capsules, bottling operations of the capsules are required. However, the bottling operation in the existing equipment is complicated, and the problem of upside-down placement of the bottles is easy to occur, so that normal bottling cannot be performed, and the capsule bottling efficiency is reduced. Therefore, how to design one in being used for making steady placing of medicine bottle to in packing into the medicine bottle with the capsule, avoid appearing the problem that the bottle was put upside down, guarantee to realize normal bottling operation, improve capsule bottling efficiency, this is the technical problem that the research and development personnel of enterprise need solve.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a medical capsule bottle feeding mechanism and a filling system, which can enable a medicine bottle to be placed stably, fill a capsule into the medicine bottle, avoid the problem of inverted placement of the bottle, ensure the realization of normal bottling operation and improve the capsule bottling efficiency.

The purpose of the invention is realized by the following technical scheme:

a capsule bottle feed mechanism for medicine, includes: the capsule bottle feeding device, the capsule bottle rotating and discharging device and the capsule bottle horizontal conveying device are respectively arranged on the base;

the capsule bottle sequential feeding device comprises a capsule bottle feeding fixing frame, a capsule bottle stacking assembly and a capsule bottle feeding-waiting assembly, wherein the capsule bottle feeding fixing frame is arranged on the base, and the capsule bottle stacking assembly and the capsule bottle feeding-waiting assembly are respectively arranged on the capsule bottle feeding fixing frame;

the capsule bottle stacking assembly comprises a capsule bottle discharging hopper, a first arc-shaped feeding plate, a second arc-shaped feeding plate and a capsule bottle arc-shaped fixing plate, the capsule bottle arc-shaped fixing plate is arranged on the capsule bottle feeding fixing frame, a first arc-shaped mounting side surface and a second arc-shaped mounting side surface are arranged on the capsule bottle arc-shaped fixing plate, one end of the first arc-shaped feeding plate is arranged on the first arc-shaped mounting side surface of the capsule bottle arc-shaped fixing plate, one end of the second arc-shaped feeding plate is arranged on the second arc-shaped mounting side surface of the capsule bottle arc-shaped fixing plate, the other end of the first arc-shaped feeding plate and the other end of the second arc-shaped feeding plate jointly enclose a first capsule bottle end part feeding area, and the first arc-shaped feeding plate, the second arc-shaped feeding plate and the capsule bottle arc-shaped fixing plate jointly enclose a first capsule bottle body feeding channel, the capsule bottle discharging hopper is arranged on the capsule bottle arc-shaped fixing plate, a capsule bottle placing cavity is formed in the capsule bottle discharging hopper, and the capsule bottle placing cavity is communicated with the first capsule bottle body feeding channel;

the capsule bottle feeding assembly comprises a first U-shaped fixing plate, a second U-shaped fixing plate and a plurality of feeding fixing connecting rods, the first U-shaped fixing plate and the second U-shaped fixing plate are respectively arranged on the capsule bottle feeding fixing frame, the first end of each feeding fixing connecting rod is respectively arranged on the first U-shaped fixing plate, the second end of each feeding fixing connecting rod is respectively arranged on the second U-shaped fixing plate, a first U-shaped feeding groove is formed in the first U-shaped fixing plate, a second U-shaped feeding groove is formed in the first U-shaped fixing plate, the second U-shaped fixing plate and each feeding fixing connecting rod jointly enclose a capsule bottle feeding area, and the capsule bottle feeding area, the first U-shaped feeding groove and the second U-shaped feeding groove respectively form a second capsule bottle body feeding channel, the second capsule bottle body feeding channel is communicated with the first capsule bottle body feeding channel, the opening parts of the first U-shaped feeding groove and the second U-shaped feeding groove jointly form a second capsule bottle end part feeding area, and the second capsule bottle end part feeding area is communicated with the first capsule bottle end part feeding area;

the capsule bottle rotating and blanking device comprises a capsule bottle blanking adjusting assembly, a capsule bottle rotating and blanking assembly and a capsule bottle blanking guide assembly, wherein the capsule bottle blanking adjusting assembly is arranged on the capsule bottle feeding fixing frame, the capsule bottle rotating and blanking assembly is rotatably arranged on the capsule bottle blanking adjusting assembly, and the capsule bottle blanking guide assembly is arranged on the capsule bottle rotating and blanking assembly;

the capsule bottle blanking adjusting assembly comprises a first blanking adjusting arc plate, a second blanking adjusting arc plate and a capsule bottle blanking fixing connecting rod, the first blanking adjusting arc plate and the second blanking adjusting arc plate are respectively arranged on the capsule bottle feeding fixing frame, a first end of the capsule bottle blanking fixing connecting rod is arranged on the first blanking adjusting arc plate, and a second end of the capsule bottle blanking fixing connecting rod is arranged on the second blanking adjusting arc plate;

a first adjusting arc-shaped groove is formed in the first blanking adjusting arc-shaped plate, a second adjusting arc-shaped groove is formed in the second blanking adjusting arc-shaped plate, and the first adjusting arc-shaped groove and the second adjusting arc-shaped groove are communicated with each other;

the capsule bottle rotating blanking assembly comprises a capsule bottle rotating blanking frame, a first fan-shaped blanking plate, a second fan-shaped blanking plate and a capsule bottle blanking bearing piece, the capsule bottle rotating blanking frame is rotatably arranged on the capsule bottle blanking fixed connecting rod, the first fan-shaped blanking plate and the second fan-shaped blanking plate are respectively arranged on the capsule bottle rotating blanking frame, a gap is arranged between the first fan-shaped blanking plate and the second fan-shaped blanking plate, the first fan-shaped blanking plate is arranged between the first blanking adjusting arc-shaped plate and the second blanking adjusting arc-shaped plate, the second fan-shaped blanking plate is arranged between the capsule bottle sequential feeding device and the first blanking adjusting arc-shaped plate, and the capsule bottle blanking bearing piece is arranged on the capsule bottle rotating blanking frame;

the capsule bottle blanking supporting piece comprises a first capsule bottle supporting fixing rod, a second capsule bottle supporting fixing rod and a capsule bottle supporting plate, one end of the first capsule bottle supporting fixing rod and one end of the second capsule bottle supporting fixing rod are respectively arranged on the capsule bottle rotating blanking frame, and one end of the first capsule bottle supporting fixing rod and one end of the second capsule bottle supporting fixing rod are respectively arranged on the capsule bottle supporting plate;

the capsule bottle supporting plate comprises a capsule bottle supporting bottom plate, a capsule bottle middle dome part and a plurality of capsule bottle annular limiting bulges, the capsule bottle middle dome part is arranged at the middle position of the capsule bottle supporting bottom plate, the capsule bottle annular limiting bulges are respectively arranged on the capsule bottle supporting bottom plate in an annular mode, the capsule bottle annular limiting bulges are respectively positioned at the edge position of the capsule bottle middle dome part, and the capsule bottle annular limiting bulges are used for being embedded in a capsule bottle bottom limiting groove;

the capsule bottle blanking guide assembly comprises a first arc-shaped blanking rod and a second arc-shaped blanking rod, the first arc-shaped blanking rod and the second arc-shaped blanking rod are respectively arranged on the capsule bottle rotating blanking frame, and the first arc-shaped blanking rod and the second arc-shaped blanking rod are used for jointly supporting the capsule bottles;

the horizontal capsule bottle conveying device comprises a horizontal conveying frame, a capsule bottle conveying supporting plate and a capsule bottle horizontal conveying belt, the horizontal conveying frame is arranged on the base, the capsule bottle horizontal conveying belt is rotatably arranged on the horizontal conveying frame, and the capsule bottle conveying supporting plate is movably arranged on the capsule bottle horizontal conveying belt.

In one embodiment, the capsule bottle feeding fixing frame comprises a capsule bottle feeding fixing plate and a capsule bottle feeding fixing frame body, the capsule bottle feeding fixing plate is arranged on the base, the capsule bottle feeding fixing frame body is arranged on the capsule bottle feeding fixing plate, and the capsule bottle stacking assembly and the capsule bottle to-be-fed assembly are respectively arranged on the capsule bottle feeding fixing frame body.

In one embodiment, the capsule bottle discharge hopper is provided with a capsule bottle end discharging groove, the capsule bottle end discharging groove is communicated with the capsule bottle placing cavity, and the capsule bottle end discharging groove is used for being communicated with the first capsule bottle end feeding area.

In one embodiment, the first U-shaped fixing plate has a circular structure.

In one embodiment, the second U-shaped fixing plate has a circular structure.

In one embodiment, the capsule bottle blanking adjusting assembly further comprises a blanking rotation adjusting knob, and the blanking rotation adjusting knob is arranged on the first blanking adjusting arc plate.

In one embodiment, the capsule bottle rotating and blanking frame comprises a first rotating and blanking connecting rod and a second rotating and blanking connecting rod, and the first rotating and blanking connecting rod and the second rotating and blanking connecting rod are respectively arranged on the capsule bottle blanking fixed connecting rod.

In one embodiment, four capsule bottle annular limiting protrusions are arranged, and spaces are respectively arranged among the four capsule bottle annular limiting protrusions.

In one embodiment, the first arc-shaped blanking rod and the second arc-shaped blanking rod are obliquely arranged.

The invention also provides a canning system which comprises the above medical capsule bottle feeding mechanism.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the invention relates to a medical capsule bottle feeding mechanism and a filling system, wherein a base, a capsule bottle sequential feeding device, a capsule bottle rotating and discharging device and a capsule bottle horizontal conveying device are arranged, so that a medicine bottle can be stably placed, a capsule is filled into the medicine bottle, the problem of upside down placement of the bottle can is avoided, normal bottling operation can be realized, and the capsule bottling efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of a medical capsule bottle loading mechanism according to an embodiment of the present invention;

FIG. 2 is a schematic view of the pharmaceutical capsule can loading mechanism shown in FIG. 1 from another perspective;

FIG. 3 is a schematic structural view of the capsule bottle rotary blanking device shown in FIG. 1;

FIG. 4 is a schematic view of the capsule bottle rotary blanking assembly shown in FIG. 1;

FIG. 5 is a schematic diagram of a filling system according to an embodiment of the present invention;

fig. 6 is a schematic structural view of the bottle stopper vibrating and feeding device shown in fig. 5;

figure 7 is a schematic structural view of the vibrating feeding device for bottle stoppers shown in another view angle in figure 5;

FIG. 8 is a schematic view of the mechanism for inserting the stopper into the capsule bottle shown in FIG. 5;

FIG. 9 is a schematic view of the alternate view of the means for inserting the stopper into the capsule shown in FIG. 5;

fig. 10 is a schematic view of the stopper-plugging drive assembly shown in fig. 5.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a medical capsule bottle feeding mechanism includes: the capsule bottle feeding device comprises a base, a capsule bottle sequential feeding device 10, a capsule bottle rotating and discharging device 20 and a capsule bottle horizontal conveying device 30, wherein the capsule bottle sequential feeding device, the capsule bottle rotating and discharging device and the capsule bottle horizontal conveying device are respectively arranged on the base. It should be noted that the base is used for fixing the capsule bottle sequence feeding device 10, the capsule bottle rotation discharging device 20 and the capsule bottle horizontal conveying device 30; the capsule bottle sequential feeding device 10 is used for feeding capsule bottles; the capsule bottle rotating and blanking device 20 is used for blanking capsule bottles; the capsule bottle horizontal transfer device 30 is used for transferring capsule bottles into a capsule bottling station.

Referring to fig. 2, the sequential capsule bottle feeding device 10 includes a capsule bottle feeding fixing frame 11, a capsule bottle stacking assembly 12, and a capsule bottle waiting-to-be-fed assembly 13, the capsule bottle feeding fixing frame is disposed on the base, and the capsule bottle stacking assembly and the capsule bottle waiting-to-be-fed assembly are respectively disposed on the capsule bottle feeding fixing frame.

Referring to fig. 2, the capsule bottle stacking assembly 12 includes a capsule bottle discharging hopper 121, a first arc-shaped feeding plate 122, a second arc-shaped feeding plate 123 and a capsule bottle arc-shaped fixing plate, the capsule bottle arc-shaped fixing plate is disposed on the capsule bottle discharging fixing frame, the capsule bottle arc-shaped fixing plate is provided with a first arc-shaped mounting side surface and a second arc-shaped mounting side surface, one end of the first arc-shaped feeding plate is disposed on the first arc-shaped mounting side surface of the capsule bottle arc-shaped fixing plate, one end of the second arc-shaped feeding plate is disposed on the second arc-shaped mounting side surface of the capsule bottle arc-shaped fixing plate, the other end of the first arc-shaped feeding plate and the other end of the second arc-shaped feeding plate jointly define a first capsule bottle end feeding area, and the first arc-shaped feeding plate, the second arc-shaped feeding plate and the capsule bottle arc-shaped fixing plate jointly define a first capsule bottle feeding channel, the capsule bottle discharging hopper is arranged on the capsule bottle arc-shaped fixing plate, a capsule bottle placing cavity is formed in the capsule bottle discharging hopper, and the capsule bottle placing cavity is communicated with the first capsule bottle body feeding channel.

Referring to fig. 2, the capsule bottle feeding assembly 13 includes a first U-shaped fixing plate 131, a second U-shaped fixing plate 132 and a plurality of feeding fixing connecting rods 133, the first U-shaped fixing plate and the second U-shaped fixing plate are respectively disposed on the capsule bottle feeding fixing frame, a first end of each feeding fixing connecting rod is respectively disposed on the first U-shaped fixing plate, a second end of each feeding fixing connecting rod is respectively disposed on the second U-shaped fixing plate, the first U-shaped fixing plate is provided with a first U-shaped feeding groove, the first U-shaped fixing plate is provided with a second U-shaped feeding groove, the first U-shaped fixing plate, the second U-shaped fixing plate and each feeding fixing connecting rod together enclose a capsule bottle feeding area, the first U-shaped feeding groove and the second U-shaped feeding groove together form a second capsule bottle feeding channel, the second capsule bottle body feeding channel is communicated with the first capsule bottle body feeding channel, the opening parts of the first U-shaped feeding groove and the second U-shaped feeding groove jointly form a second capsule bottle end part feeding area, and the second capsule bottle end part feeding area is communicated with the first capsule bottle end part feeding area.

It should be noted that after the capsule bottle is put into the capsule bottle hopper 121, the capsule bottle can enter the second capsule bottle body feeding channel through the first capsule bottle body feeding channel, and then enter the capsule bottle rotating and discharging device.

Referring to fig. 3, the capsule bottle rotating and discharging device 20 includes a capsule bottle discharging adjusting assembly 21, a capsule bottle rotating and discharging assembly 22, and a capsule bottle discharging guiding assembly 23, the capsule bottle discharging adjusting assembly is disposed on the capsule bottle feeding fixing frame, the capsule bottle rotating and discharging assembly is rotatably disposed on the capsule bottle discharging adjusting assembly, and the capsule bottle discharging guiding assembly is disposed on the capsule bottle rotating and discharging assembly. It should be noted that the capsule bottle blanking adjusting assembly 21 is used for adjusting the height of the capsule bottle rotating blanking assembly 22; the capsule bottle rotating and blanking assembly 22 is used for realizing blanking of capsule bottles; the capsule bottle blanking guide assembly 23 is used for guiding the capsule bottles to be blanked.

Referring to fig. 3, the capsule bottle discharging adjustment assembly 21 includes a first discharging adjustment arc 211, a second discharging adjustment arc 212, and a capsule bottle discharging fixing link 213, the first discharging adjustment arc and the second discharging adjustment arc are respectively disposed on the capsule bottle feeding fixing frame, a first end of the capsule bottle discharging fixing link is disposed on the first discharging adjustment arc, and a second end of the capsule bottle discharging fixing link is disposed on the second discharging adjustment arc. It should be noted that the first blanking adjusting arc 211 and the second blanking adjusting arc 212 are used for fixing the height of the capsule bottle rotating blanking assembly 22, and the capsule bottle blanking fixing link 213 plays a fixing role.

Referring to fig. 3, a first adjusting arc-shaped groove is formed on the first blanking adjusting arc-shaped plate, a second adjusting arc-shaped groove is formed on the second blanking adjusting arc-shaped plate, and the first adjusting arc-shaped groove and the second adjusting arc-shaped groove are communicated with each other.

Referring to fig. 4, the capsule bottle rotating and discharging assembly 22 includes a capsule bottle rotating and discharging rack 221, a first fan-shaped discharging plate 222, a second fan-shaped discharging plate 223, and a capsule bottle discharging and supporting member 224, the capsule bottle rotating and discharging rack is rotatably disposed on the capsule bottle discharging fixed link, the first fan-shaped discharging plate and the second fan-shaped discharging plate are respectively disposed on the capsule bottle rotating and discharging rack, a space is disposed between the first fan-shaped discharging plate and the second fan-shaped discharging plate, the first fan-shaped discharging plate is disposed between the first discharging and adjusting arc plate, the second fan-shaped discharging plate is disposed between the capsule bottle sequential feeding device and the first discharging and adjusting arc plate, and the capsule bottle discharging and supporting member is disposed on the capsule bottle rotating and discharging rack. It should be noted that the capsule bottle rotating blanking frame 221 is used for fixing the capsule bottle rotating blanking assembly; the first fan-shaped blanking plate 222 and the second fan-shaped blanking plate 223 are used for supporting the capsule bottles; the capsule bottle blanking support 224 is used for a capsule bottle, so that the capsule bottle can be stably blanked.

Referring to fig. 4, the capsule bottle discharging and supporting member 224 includes a first capsule bottle supporting and fixing rod 225, a second capsule bottle supporting and fixing rod 226, and a capsule bottle supporting plate 227, one end of the first capsule bottle supporting and fixing rod and one end of the second capsule bottle supporting and fixing rod are respectively disposed on the capsule bottle rotating and discharging frame, and one end of the first capsule bottle supporting and fixing rod and one end of the second capsule bottle supporting and fixing rod are respectively disposed on the capsule bottle supporting plate. It should be noted that the first capsule bottle holder fixing rod 225 and the second capsule bottle holder fixing rod 226 are used to fix the capsule bottle holder plate 227 together; capsule bottle supporting plate 227 is used for supporting the capsule bottle for the unloading can be stably carried out to the capsule bottle.

It should be noted that, in this embodiment, the bottom of the capsule bottle has a concave groove, and then a positioning groove is also provided on the groove, so as to realize the positioning of the capsule bottle, so as to improve the stability of the capsule bottle conveying. In an embodiment, referring to fig. 4, the capsule bottle supporting plate 227 includes a capsule bottle supporting bottom plate 227a, a capsule bottle middle dome portion 227b and a plurality of capsule bottle annular limiting protrusions 227c, the capsule bottle middle dome portion is disposed at a middle position of the capsule bottle supporting bottom plate, each capsule bottle annular limiting protrusion is respectively disposed on the capsule bottle supporting bottom plate in an annular manner, each capsule bottle annular limiting protrusion is respectively located at an edge position of the capsule bottle middle dome portion, and each capsule bottle annular limiting protrusion is used for being embedded in a bottom limiting groove of a capsule bottle. Capsule bottle bearing bottom plate 227a is used for the butt on the capsule bottle, the middle dome portion 227b of capsule bottle is used for the butt in the sunken inslot of the bottom of capsule bottle, capsule bottle annular spacing arch 227c is used for the butt on the constant head tank of capsule bottle bottom to can realize the location to this capsule bottle, with the stability that improves capsule bottle conveying.

Referring to fig. 3, the capsule bottle discharging guiding assembly 23 includes a first arc-shaped discharging rod 231 and a second arc-shaped discharging rod 232, the first arc-shaped discharging rod and the second arc-shaped discharging rod are respectively disposed on the capsule bottle rotating discharging frame, and the first arc-shaped discharging rod and the second arc-shaped discharging rod are used for jointly supporting the capsule bottle. It should be noted that the first arc-shaped blanking rod 231 and the second arc-shaped blanking rod 232 are used for placing the capsule bottles together, so as to facilitate blanking.

Referring to fig. 2, the capsule bottle horizontal conveying device 30 includes a horizontal conveying frame 31, a capsule bottle conveying support plate 32 and a capsule bottle horizontal conveyor belt 33, the horizontal conveying frame is disposed on the base, the capsule bottle horizontal conveyor belt is rotatably disposed on the horizontal conveying frame, and the capsule bottle conveying support plate is movably disposed on the capsule bottle horizontal conveyor belt. It should be noted that the horizontal conveying frame 31 is used for fixing the capsule bottle conveying support plate 32 and the capsule bottle horizontal conveying belt 33; the capsule bottle conveying support plate 32 is used for supporting the capsule bottles; the capsule bottle horizontal conveyor belt 33 is used to effect the transfer.

The working process is as follows:

put into the capsule bottle in capsule bottle blowing fill, then enter into second capsule bottle body material loading passageway through first capsule bottle body material loading passageway, later on entering into first arc unloading pole and second arc unloading pole, at this moment, then on making capsule bottle butt on capsule bottle bearing bottom plate, and then make dome portion and the annular spacing protruding butt of capsule bottle in the middle of the capsule bottle on the constant head tank of capsule bottle bottom, however rotating first fan-shaped flitch and the fan-shaped flitch of second down, make on the capsule bottle can enter into capsule bottle conveying backup pad, in carrying another station by capsule bottle horizontal conveyor.

It should be noted that the capsule bottle feeding fixing frame comprises a capsule bottle feeding fixing plate body and a capsule bottle feeding fixing frame body, the capsule bottle feeding fixing plate body is arranged on the base, the capsule bottle feeding fixing frame body is arranged on the capsule bottle feeding fixing plate body, and the capsule bottle stacking assembly and the capsule bottle feeding assembly to be treated are respectively arranged on the capsule bottle feeding fixing frame body. Therefore, the capsule bottle feeding fixing plate body and the capsule bottle feeding fixing frame body can play a role in fixing.

It should be noted that a capsule bottle end discharging groove is formed in the capsule bottle discharging hopper, the capsule bottle end discharging groove is communicated with the capsule bottle placing cavity, and the capsule bottle end discharging groove is communicated with the first capsule bottle end feeding area. So, through setting up capsule bottle tip unloading groove, conveniently carry out the unloading to the capsule bottle.

It should be noted that the first U-shaped fixing plate has a circular structure. The second U-shaped fixing plate has a circular structure. The capsule bottle annular limiting bulges are four, and intervals are arranged among the capsule bottle annular limiting bulges. Thus, structural stability and reliability can be improved.

It should be noted that the capsule bottle discharging adjusting assembly further comprises a discharging rotation adjusting knob, and the discharging rotation adjusting knob is arranged on the first discharging adjusting arc-shaped plate. So, rotate adjust knob through setting up the unloading, can adjust the height that first unloading was adjusted the arc and was adjusted the arc with the second unloading.

It should be noted that the capsule bottle rotating blanking frame comprises a first rotating blanking connecting rod and a second rotating blanking connecting rod, and the first rotating blanking connecting rod and the second rotating blanking connecting rod are respectively arranged on the capsule bottle blanking fixed connecting rod. So, rotate the unloading connecting rod through setting up first rotation unloading connecting rod and second, can improve structural stability.

It should be noted that the first arc-shaped blanking rod and the second arc-shaped blanking rod are both arranged in an inclined manner. So, through setting up the inclined plane, can make things convenient for the capsule bottle to carry out the unloading.

Referring to fig. 5, the present invention further provides a filling system, which comprises the above-mentioned medical capsule bottle feeding mechanism. The canning system further comprises a bottle stopper fixing device 40, a bottle stopper vibration feeding device 50, a bottle stopper blanking conveying device 60 and a bottle stopper filling capsule bottle device 70, wherein the bottle stopper fixing device and the bottle stopper filling capsule bottle device are respectively arranged on the base, and the bottle stopper vibration feeding device and the bottle stopper blanking conveying device are respectively arranged on the bottle stopper fixing device. The bottle stopper fixing device 40 is used for fixing the bottle stopper vibration feeding device 50, the bottle stopper blanking and conveying device 60 and the bottle stopper filling capsule bottle device 70; the bottle stopper vibration feeding device 50 is used for realizing the vibration feeding of the bottle stopper; the bottle stopper blanking conveying device 60 is used for conveying bottle stoppers; the stopper plugging capsule bottle device 70 is used to fill the stopper into the bottle mouth.

Referring to fig. 5, the bottle stopper fixing device includes a bottle stopper fixing frame, a bottle stopper fixing plate and a plurality of fixing gaskets, each of the fixing gaskets is disposed on the base, the bottle stopper fixing frame is disposed on the fixing gasket, the bottle stopper fixing plate is disposed on the bottle stopper fixing frame, and the bottle stopper vibration feeding device and the bottle stopper discharging and conveying device are respectively disposed on the bottle stopper fixing frame. It should be noted that, by arranging the bottle plug fixing frame, the bottle plug fixing plate and the plurality of fixing gaskets, the structural stability of the bottle plug fixing device can be improved.

Referring to fig. 6, the bottle stopper vibrating and feeding device 50 includes a bottle stopper vibrating and driving assembly 51, a bottle stopper feeding and conveying assembly 52 and a bottle stopper conveying and driving assembly 53, the bottle stopper vibrating and driving assembly is disposed on the bottle stopper fixing plate, and the bottle stopper feeding and conveying assembly and the bottle stopper conveying and driving assembly are respectively disposed on the bottle stopper vibrating and driving assembly. It should be noted that the bottle stopper vibrating and driving assembly 51 is used for vibrating and feeding so that the bottle stopper can enter the bottle stopper feeding and conveying assembly 52 along a designed route; the bottle stopper feeding conveying assembly 52 is used for conveying the bottle stoppers subjected to vibration feeding to a bottle stopper blanking conveying device; the bottle stopper conveying driving assembly 53 is used for driving the bottle stopper feeding conveying assembly 52 to move.

Referring to fig. 6, the bottle stopper vibration driving assembly 51 includes a bottle stopper vibration driving portion 511, a bottle stopper vibration bottom plate 512 and a bottle stopper vibration discharging barrel 513, the bottle stopper vibration driving portion is disposed on the bottle stopper fixing plate, the bottle stopper vibration bottom plate is disposed on the bottle stopper vibration driving portion, and the bottle stopper vibration discharging barrel is disposed on the bottle stopper vibration bottom plate. It should be noted that the stopper vibration driving portion 511 is used for realizing vibration; the bottle stopper vibrating bottom plate 512 is used for placing a bottle stopper vibrating discharging barrel 513; the bottle stopper vibrating and discharging barrel 513 is used for placing bottle stoppers.

Referring to fig. 7, the plug feeding conveyor assembly 52 includes a plug feeding rail member 521, a first plug feeding baffle 522, a second plug feeding baffle 523 and a plug feeding mounting frame 524, the feeding fence piece is arranged in the bottle stopper vibration discharging barrel, the bottle stopper feeding mounting frame is arranged in the bottle stopper vibration discharging barrel, the feeding fence piece comprises a first bottle plug feeding side plate, a second bottle plug feeding side plate and a connecting side plate, the first bottle stopper feeding side plate, the second bottle stopper feeding side plate and the connecting side plate are respectively arranged in the bottle stopper vibration discharging barrel, the first bottle plug feeding side plate, the second bottle plug feeding side plate and the connecting side plate together enclose a first bottle plug feeding area, the first bottle stopper feeding baffle and the second bottle stopper feeding baffle jointly enclose a second bottle stopper feeding area, and the first bottle stopper feeding area is communicated with the second bottle stopper feeding area. It should be noted that the bottle plug feeding rail member 521 is used for surrounding a feeding hole, so that the bottle plug is more convenient to feed; the first bottle stopper feeding baffle 522 and the second bottle stopper feeding baffle 523 are used together for stopping the bottle stoppers; the stopper loading mount 524 is used to secure the stopper loading conveyor assembly.

Referring to fig. 7, the bottle stopper conveying driving assembly 53 includes a bottle stopper conveying frame 531, a bottle stopper conveying belt 532, a bottle stopper conveying driving portion (not shown in the figure) and a plurality of bottle stopper feeding limiting plates 533, the bottle stopper conveying frame is disposed on the bottle stopper fixing frame, the bottle stopper conveying driving portion is disposed on the bottle stopper conveying frame, each bottle stopper feeding limiting plate is disposed on the bottle stopper conveying belt, the bottle stopper conveying belt is disposed between the first bottle stopper feeding baffle and the second bottle stopper feeding baffle, each adjacent bottle stopper feeding limiting plate is provided with a bottle stopper conveying feeding area, the bottle stopper conveying feeding area is used for placing a bottle stopper, the bottle stopper conveying driving portion is used for driving the bottle stopper conveying belt to rotate, and further drives the bottle stopper feeding limiting plate to move upwards, so that the bottle stopper on the bottle stopper conveying and feeding area is fed. It should be noted that the bottle stopper conveying rack 531 is used for installing a bottle stopper conveying driving assembly; the bottle stopper conveying belt 532 is used for moving bottle stoppers; the bottle stopper conveying driving part provides power for bottle stopper feeding; the bottle stopper feeding limiting plate 533 is used for limiting the bottle stopper during feeding.

During operation, the bottle stopper is placed in the bottle stopper vibration discharging barrel 513, then the bottle stopper is vibrated through the bottle stopper vibration driving portion 511, and then the bottle stopper enters the first bottle stopper feeding area under vibration, enters the second bottle stopper feeding area through the first bottle stopper feeding area, enters between the first bottle stopper feeding baffle 522 and the second bottle stopper feeding baffle 523, and is finally limited on the bottle stopper conveying belt 532 by the bottle stopper feeding limiting plate 533, so that the bottle stopper feeding operation is realized.

Referring to fig. 7, the bottle stopper blanking conveying device 60 includes a bottle stopper arc-shaped blanking plate 61, a bottle stopper blanking conveying plate 62, a bottle stopper blanking clamping sleeve 63 and a bottle stopper blanking fixing shaft sleeve 64, the bottle stopper arc-shaped blanking plate is disposed on the first bottle stopper blanking baffle, the bottle stopper blanking fixing shaft sleeve is sleeved outside the bottle stopper arc-shaped blanking plate, the bottle stopper blanking fixing shaft sleeve is disposed on the first bottle stopper blanking baffle, a first end of the bottle stopper blanking conveying plate is connected with the bottle stopper arc-shaped blanking plate, a blanking conveying through hole is disposed on the bottle stopper vibration blanking barrel, the bottle stopper blanking clamping sleeve is embedded in the blanking conveying through hole, and a second end of the blanking conveying plate penetrates through the bottle stopper blanking clamping sleeve and then is connected with the bottle stopper capsule filling device. It should be noted that the arc-shaped blanking plate 61 of the bottle stopper is used for realizing blanking; the bottle stopper blanking conveying plate 62 is used for conveying bottle stoppers to the bottle stopper filling capsule bottle device 70; the bottle stopper blanking clamping sleeve 63 is used for avoiding the position of the bottle stopper vibrating and blanking barrel 513; the bottle stopper blanking fixing shaft sleeve 64 is used for fixing the bottle stopper arc-shaped blanking plate 61 on the first bottle stopper feeding baffle 522.

Referring to fig. 7, a bottle plug discharging through hole is formed in the first bottle plug feeding baffle, a bottle plug arc discharging groove is formed in the bottle plug arc discharging plate, a bottle plug discharging conveying groove is formed in the bottle plug discharging conveying plate, and the bottle plug arc discharging groove is respectively communicated with the bottle plug discharging through hole and the bottle plug discharging conveying groove. In this manner, plug loading may be accomplished and the plugs transferred to the plug insertion capsule device 70.

Referring to fig. 8, the bottle stopper plugging capsule bottle device 70 includes a bottle stopper positioning fixing frame 71, a manipulator assembly 72 and a bottle stopper plugging driving assembly 73, wherein the manipulator assembly and the bottle stopper plugging driving assembly are respectively disposed on the bottle stopper positioning fixing frame. It should be noted that the bottle stopper positioning fixing frame 71 is used for fixing the manipulator assembly 72 and the bottle stopper inserting driving assembly 73; the manipulator assembly 72 is used for transferring the stoppers to the stopper stuffing drive assembly 73; the stopper insertion drive assembly 73 is used to insert a stopper into a bottle.

Referring to fig. 9, the manipulator assembly 72 includes a first bottle plug jaw 721, a second bottle plug jaw 722, and a first driving torsion spring 723, where the first bottle plug jaw and the second bottle plug jaw are respectively disposed on the bottle plug positioning fixing frame, and the first driving torsion spring is respectively connected to the first bottle plug jaw and the second bottle plug jaw, and is used to clamp the first bottle plug jaw and the second bottle plug jaw. It should be noted that the first bottle stopper jaw 721 and the second bottle stopper jaw 722 are used for gripping a bottle stopper; the first driving torsion spring 723 is used for tensioning the first bottle stopper clamping jaw 721 and the second bottle stopper clamping jaw 722, namely, clamping the bottle stopper.

Referring to fig. 9, the bottle stopper plugging driving assembly 73 includes a bottle stopper rotation driving portion 731, a bottle stopper rotation driving rod 732, a clamping jaw pressing driving member 733, a bottle stopper rotation stud 734 and a bottle stopper rotation shaft sleeve 735, the bottle stopper rotation driving portion is disposed on the bottle stopper positioning fixing frame, one end of the bottle stopper rotation driving rod is rotatably connected to the bottle stopper rotation driving portion, the other end of the bottle stopper rotation driving rod is used for driving the bottle stopper rotation stud and the bottle stopper rotation shaft sleeve to rotate, and the clamping jaw pressing driving member is disposed on the bottle stopper rotation stud. The stopper rotation driving part 731 is configured to realize rotation driving; the bottle stopper rotation driving rod 732 is used for connecting a bottle stopper rotation stud 734 and a bottle stopper rotation shaft sleeve 735; the clamping jaw pressing driving piece 733 is used for driving the clamping jaw to move; the bottle stopper rotating stud 734 is used for realizing rotation; the bottle stopper rotating shaft sleeve 735 is used for fixing a bottle stopper.

Thus, when the bottle stopper rotation driving part 731 drives the bottle stopper rotation driving rod 732 to rotate, so as to drive the bottle stopper rotation stud 734 to rotate, and simultaneously drive the bottle stopper rotation shaft sleeve 735 to rotate, so that the bottle stopper is rotated to enter the bottle opening of the bottle.

Referring to fig. 10, the manipulator assembly 72 further includes a first downward pressing opening limiting post 724 and a second downward pressing opening limiting post 725, the first bottle plug clamping jaw is disposed on the first downward pressing opening limiting post, the second bottle plug clamping jaw is disposed on the second downward pressing opening limiting post, a first downward pressing opening limiting groove is formed in the first downward pressing opening limiting post, a second downward pressing opening limiting groove is formed in the second downward pressing opening limiting post, and the first downward pressing opening limiting groove and the second downward pressing opening limiting groove together form a downward pressing opening cavity. It should be noted that the first downward-pressing open-position-limiting column 724 and the second downward-pressing open-position-limiting column 725 are used for driving the first stopper jaw 721 and the second stopper jaw 722 to open or close.

Referring to fig. 10, the clamping jaw pressing driving member 733 includes a clamping jaw opening pressing plate 733a, a clamping jaw pressing limiting column 733b and a clamping jaw opening driving ball 733c, the clamping jaw opening pressing plate is disposed on the plug rotating stud, one end of the clamping jaw pressing limiting column is connected to the clamping jaw opening pressing plate, the other end of the clamping jaw pressing limiting column is connected to the clamping jaw opening driving ball, when the clamping jaw opening driving ball presses down, the clamping jaw opening driving ball is embedded in the pressing opening cavity, and the outer surface of the clamping jaw opening driving ball abuts against the inner side walls of the first opening limiting groove and the second opening limiting groove, so that the first plug clamping jaw and the second plug clamping jaw open. Note that the clamping jaws open the lower pressing plate 733a to realize pressing; the clamping jaw pressing limiting column 733b is used for connecting a clamping jaw opening driving ball 733 c; the jaw opening driving ball 733c is used for abutting against the first downward pressing opening limiting column 724 and the second downward pressing opening limiting column 725, so that the first bottle stopper jaw and the second bottle stopper jaw perform opening action.

It should be noted that, the fixed gasket is provided with a plurality of, and each fixed gasket sets up respectively on the bottle plug mount. The bottle stopper vibration driving part is of a motor structure. Thus, structural stability can be improved.

The bottle stopper vibration discharging barrel is provided with a bottle stopper containing groove, and the bottle stopper containing groove is used for containing a bottle stopper. Therefore, more bottle stoppers can be placed.

It should be noted that the bottle stopper conveying frame comprises a first conveying frame body and a second conveying frame body, and a gap is arranged between the first conveying frame body and the second conveying frame body. The bottle stopper conveying driving part is of a motor structure. The bottle stopper rotation driving part is of a motor structure. Thus, the structural stability of the device can be improved.

It should be noted that a first bottle plug clamping groove is formed in the first bottle plug clamping jaw, a second bottle plug clamping groove is formed in the second bottle plug clamping jaw, and the first bottle plug clamping groove and the second bottle plug clamping groove are used for clamping a flange structure of a bottle plug together. So, through setting up first bottle stopper and pressing from both sides groove and second bottle stopper and pressing from both sides the groove, the flange structure of tight bottle stopper that can be more firm.

It should be noted that the bottle stopper feeding limiting plate is provided with a feeding limiting groove, and the feeding limiting groove is used for limiting a flange structure of the bottle stopper. So, through setting up the material loading spacing groove, can improve the stability of material loading.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a capsule bottle feed mechanism for medicine which characterized in that includes: the capsule bottle feeding device, the capsule bottle rotating and discharging device and the capsule bottle horizontal conveying device are respectively arranged on the base;

2. The medical capsule bottle feeding mechanism according to claim 1, wherein the capsule bottle feeding fixing frame includes a capsule bottle feeding fixing plate and a capsule bottle feeding fixing frame, the capsule bottle feeding fixing plate is disposed on the base, the capsule bottle feeding fixing frame is disposed on the capsule bottle feeding fixing plate, and the capsule bottle stacking assembly and the capsule bottle waiting-to-feed assembly are respectively disposed on the capsule bottle feeding fixing frame.

3. The medical capsule bottle/jar feeding mechanism according to claim 1, wherein the capsule bottle hopper is provided with a capsule bottle end discharging groove, the capsule bottle end discharging groove is communicated with the capsule bottle placing cavity, and the capsule bottle end discharging groove is used for being communicated with the first capsule bottle end feeding area.

4. The medical capsule bottle loading mechanism of claim 1, wherein the first U-shaped fixing plate has a circular structure.

5. The medical capsule bottle loading mechanism of claim 1, wherein the second U-shaped fixing plate has a circular structure.

6. The medical capsule bottle feeding mechanism of claim 1, wherein the capsule bottle discharging adjustment assembly further comprises a discharging rotation adjustment knob, and the discharging rotation adjustment knob is disposed on the first discharging adjustment arc.

7. The medical capsule bottle and jar feeding mechanism of claim 1, wherein the capsule bottle rotating blanking frame comprises a first rotating blanking connecting rod and a second rotating blanking connecting rod, and the first rotating blanking connecting rod and the second rotating blanking connecting rod are respectively disposed on the capsule bottle blanking fixing connecting rod.

8. The medical capsule bottle feeding mechanism of claim 1, wherein four capsule bottle annular limiting protrusions are provided, and a space is provided between each of the four capsule bottle annular limiting protrusions.

9. The medical capsule bottle and jar feeding mechanism of claim 1, wherein the first arc-shaped discharging rod and the second arc-shaped discharging rod are both inclined.

10. A filling system comprising the pharmaceutical capsule bottle filling apparatus according to any one of claims 1 to 9.