CN106628281B

CN106628281B - Quantitative particle bottling system

Info

Publication number: CN106628281B
Application number: CN201611006193.7A
Authority: CN
Inventors: 林华青; 吴锦志; 陈章富
Original assignee: Zhuhai Deer Bioengineering Co ltd
Current assignee: Zhuhai Deer Bioengineering Co ltd
Priority date: 2016-11-15
Filing date: 2016-11-15
Publication date: 2022-06-24
Anticipated expiration: 2036-11-15
Also published as: CN106628281A

Abstract

The invention discloses a particle quantitative bottling system, which comprises a rack and a housing arranged on the rack, wherein the housing is provided with a feed hole and a feeding device positioned on the feed hole, the housing is internally provided with a storage device, the storage device comprises a storage tank, the storage tank is positioned below the feeding device, a left panel and a right panel of the storage tank are uniformly provided with a plurality of discharge holes, one side of the storage device is provided with a horizontally sliding material pumping device, the material pumping device is movably provided with a plurality of injector mechanisms, the other side of the storage device is provided with a horizontally sliding reagent bottle pushing device, the reagent bottle pushing device is movably provided with a plurality of reagent bottles, and the reagent bottles and the injector mechanisms are horizontally corresponding to the discharge holes; the automatic feeding and bottling integrated process for the medicine particles is realized, manual operation is reduced, safety and sanitation in the bottling process are guaranteed, and processing efficiency is improved.

Description

Quantitative particle bottling system

Technical Field

The invention relates to the field of bottling equipment, in particular to a particle quantitative bottling system.

Background

At present, the process of bottling various medicine particles in the pharmaceutical industry is mostly finished by adopting a semi-automatic device, or the filling of one bottle can be automatically finished in each step, so that the bottle filling system has low production efficiency, needs a large amount of labor force on a production field and does not meet the current efficient production requirement.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the particle quantitative bottling system which improves the bottling working efficiency, is convenient to install and easy to clean all parts and realizes automatic bottling.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a bottled system of granule ration, includes a frame, be provided with a feed arrangement in the frame, feed arrangement's below is provided with a storage device, storage device includes a stock chest, evenly be provided with a plurality of discharge openings on the left surface board of stock chest and the right surface board, one side of storage device is provided with horizontal slip's material device of taking out, it is provided with a plurality of syringe mechanisms to take out the material device activity of going up, storage device's opposite side is provided with horizontal slip's reagent bottle pusher, a plurality of reagent bottles have been placed in the reagent bottle pusher activity of going up, reagent bottle and syringe mechanism all with the discharge opening level corresponds, feed arrangement, storage device, material device and reagent bottle pusher all with a control center electric connection.

As a further improvement of the above scheme, the feeding device includes a feeding hopper, a feeding chute is provided below the feeding hopper, a quantitative material distributing mechanism is provided in the feeding chute, the quantitative material distributing device includes a rotating shaft, the rotating shaft is connected with a first driving motor, a roller is sleeved on the rotating shaft, a plurality of partition plates are erected on the roller, the partition plates divide the interior of the feeding chute into a plurality of discharge compartments, a rotation inductive switch is provided on the rotating shaft, and the rotation inductive switch is electrically connected with the first driving motor.

As a further improvement of the above scheme, the upper end of stock chest is provided with the pan feeding mouth, the upper end of stock chest still is connected with vibration mechanism, vibration mechanism is including fixing left fixed plate and the right fixed plate in the frame, all be fixed with the slide rail on left fixed plate and the right fixed plate, it is provided with the slider all to slide on the slide rail, and two sliders are fixed respectively on a left connecting block and a right connecting block, the upper end setting of stock chest is in between left connecting block and the right connecting block, the front end of stock chest is provided with first cylinder, the piston rod of first cylinder is connected with the stock chest.

As a further improvement of the scheme, a plurality of fixed shafts are horizontally fixed on the outer side of the left panel or the right panel, movable baffle plates are rotatably sleeved on the fixed shafts, and one movable baffle plate shields one row of discharge holes.

As a further improvement of the above scheme, the material pumping device further comprises a mounting seat, the mounting seat is connected with the rack through a material pumping driving mechanism arranged at the bottom, a mounting panel is fixed on the mounting seat, the injector mechanism comprises an injector outer cylinder and an injector piston rod which are connected with each other, the injector outer cylinder is uniformly arranged on the mounting panel in a penetrating manner, the positions of the injector outer cylinder and the positions of the reagent bottles are in one-to-one correspondence, the tail ends of the injector piston rods are fixed on a fixing plate, and the fixing plate is arranged on the mounting seat through an injector sliding mechanism.

As a further improvement of the above scheme, the material pumping driving mechanism comprises a material pumping driving motor fixed on the frame, a main shaft of the material pumping driving motor is connected with a material pumping bearing, the material pumping bearing sleeve is arranged at one end of a material pumping ball screw, the material pumping ball screw passes through a bearing seat on the frame, a driving bearing seat is sleeved on the material pumping ball screw, and the mounting seat is fixed on the driving bearing seat.

As a further improvement of the above scheme, the injector sliding mechanism comprises a fixed plate slide rail fixed on the mounting seat, a fixed plate slide block is arranged at the bottom end of the fixed plate, the fixed plate slide block is movably arranged on the fixed plate slide rail, a sliding cylinder is fixed on the fixed plate, and a piston rod of the sliding cylinder is connected with the fixed plate.

As a further improvement of the proposal, the reagent bottle pushing device comprises a reagent bottle fixing seat, the bottom of the reagent bottle fixing seat is provided with a movement mechanism, a connecting plate is vertically arranged on the reagent bottle fixing seat, a second cylinder is fixed on the connecting plate, a funnel seat is fixed on a piston rod of the second cylinder, a plurality of through holes are arranged on the funnel seat, a funnel is fixedly arranged in each through hole, an overturning fixing block is fixed on the lower surface of the reagent bottle fixing seat, a spring is arranged between the reagent bottle fixing seat and the overturning fixed block, an overturning shaft is fixedly arranged at the lower end of the overturning fixed block in a penetrating way, both ends of the turnover shaft are sleeved with turnover bearings which are respectively arranged on the two fixed brackets in a penetrating way, the turnover shaft is connected with a turnover driving mechanism, and the fixed support is connected with a sliding driving mechanism.

As a further improvement of the above scheme, the turnover driving mechanism includes a worm wheel fixed on the turnover shaft and a worm cooperating with the worm wheel, the worm is fixed at one end of a worm linkage rod, the worm linkage rod is arranged on a worm fixing seat in a penetrating manner, the worm fixing seat is fixed on the fixing support, the other end of the worm linkage rod is connected with a turnover driving motor, and the turnover driving motor is fixed on the fixing support.

As a further improvement of the above scheme, the sliding driving mechanism includes a sliding motor, the sliding motor is connected with a main transmission shaft, the main transmission shaft is connected with a driven transmission shaft through a belt, the fixing bracket is fixedly connected with the belt, and the main transmission shaft and the driven transmission shaft are fixed on the frame.

The invention has the beneficial effects that:

the particle quantitative bottling system provided by the invention realizes an integrated automatic flow of medicine particle feeding, feeding and bottling, reduces manual operation, ensures safety and sanitation in a bottling process, and improves processing efficiency; the feeding device controls the roller to rotate by adopting a photoelectric switch, plays a role of opening and closing, quantitatively guides the medicine particles into the feeding groove, and the roller can be quickly installed, detached and cleaned; a plurality of injector mechanisms in the material pumping device simultaneously carry out quantitative bottling work on the reagent bottles on the reagent bottle pushing device, the speed is high, and more than 8000 bottles can be filled in each hour; the vibration mechanism connected with the storage tank keeps the medicine particles in the storage tank tight, the movable baffle plate can rotate freely, the outer barrel of the injector of the pumping device can be fully inserted in the material inserting process of the storage tank, and the storage tank can be quickly installed, disassembled and cleaned; reagent bottle pusher passes through the worm gear transmission upset for the loading of reagent bottle is simpler, and the spring shock-absorbing structure who sets up lets hopper vibrations in-process from top to bottom reduce the impact to the worm gear.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. Obviously, the described figures are only some embodiments of the invention, not all embodiments, and other designs and figures can be obtained by those skilled in the art without inventive effort, based on these figures:

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

FIG. 2 is an exploded view of the preferred embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a preferred embodiment of the present invention;

FIG. 4 is an exploded view of the feeding device in the preferred embodiment of the present invention;

FIG. 5 is an exploded view of the stocker according to the preferred embodiment of the present invention;

FIG. 6 is an exploded view of the material drawing device in accordance with the preferred embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a reagent bottle pushing device according to a preferred embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a reagent bottle pushing device according to a preferred embodiment of the present invention.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention.

Referring to fig. 1 to 8, a granule quantitative bottling system, includes a frame 1, be provided with a feed arrangement 2 in the frame 1, the below of feed arrangement 2 is provided with a storage device 3, storage device includes a stock chest 31, stock chest 31 is located feed arrangement 2 below, evenly be provided with a plurality of discharge openings 34 on left panel 32 and the right panel 33 of stock chest 31, one side of storage device 3 is provided with material pumping device 4 that can horizontally slide, material pumping device 4 goes up the activity and is provided with a plurality of syringe mechanisms, the opposite side of storage device 3 is provided with reagent bottle pusher 5 that can horizontally slide, a plurality of reagent bottles 6 have been placed in the activity on reagent bottle pusher 5, reagent bottle 6 and syringe mechanism all with discharge opening 34 level corresponds, feed arrangement 2, storage device 3, the activity is provided with, The material pumping device 4 and the reagent bottle pushing device 5 are both electrically connected with a control center.

Medicine particles enter the storage groove 31 of the storage device 3 from the feeding device 2, the reagent bottle pushing device 5 turns over 90 degrees after being filled into the reagent bottles 6, the reagent bottle pushing device 5 and the material pumping device 4 move towards the storage groove 31, the injector mechanism is inserted from the discharge hole 34, the reagent bottles 6 filled with the medicine particles are inserted into the reagent bottles 6 of the reagent bottle pushing device 5 through the discharge hole 34, then the injector mechanism pushes the medicine particles out of the reagent bottles 6, and finally the reagent bottle pushing device 5 and the material pumping device 4 reset to complete one-time bottling circulation.

Feed arrangement 2 includes a feeder hopper 21, the below of feeder hopper 21 is provided with chute feeder 22, be provided with quantitative feed mechanism in the chute feeder 22, quantitative feed arrangement includes a pivot 23, pivot 23 is connected with a driving motor 24, the cover is equipped with cylinder 25 in the pivot 23, a plurality of division boards 26 have been erect on the cylinder 25, division board 26 will the internal partitioning of chute feeder 22 is between a plurality of ejection of compact, be provided with rotation inductive switch 27 in the pivot 23, rotation inductive switch 27 with a driving motor 24 electric connection. The roller 25 rotates to separately load the fed materials into different discharging rooms, the particles are led into the storage tank 31 in batches, the inductive switch 27 is rotated to sense whether the particles in the storage tank are full, and the rotating shaft 23 is controlled to rotate to discharge the materials.

The upper end of stock chest 31 is provided with the pan feeding mouth, the upper end of stock chest 31 still is connected with vibration mechanism, vibration mechanism is including fixing left fixed plate 35 and the right fixed plate 36 in frame 1, all be fixed with slide rail 37 on left side fixed plate 35 and the right fixed plate 36, it is provided with slider 38 all to slide on the slide rail 37, and two sliders 38 are fixed respectively on a left connecting block 39 and a right connecting block 310, the upper end setting of stock chest 31 is in between left connecting block 39 and the right connecting block 310, the front end of stock chest 31 is provided with first cylinder 311, the piston rod of first cylinder 311 is connected with stock chest 31. The vibration mechanism of the storage tank 31 keeps the medicine particles compact in the storage tank 31, so that a plurality of reagent bottles 6 can be filled at one time, and the injector mechanism can conveniently insert the medicine particles.

A plurality of fixed shafts 312 are horizontally fixed on the outer side of the left panel 32 or the right panel 33, movable baffles 313 are rotatably sleeved on the fixed shafts 312, and one movable baffle 313 shields one row of discharge holes 34. The movable baffle 313 can rotate freely, so that the material drawing device 4 can be inserted fully in the material drawing process of the storage tank 31, medicine particles cannot be pushed out of the discharge hole 34 at a time, and after the material drawing device 4 pushes out the discharge hole 34, the movable baffle 313 can prevent the medicine particles in the storage tank 31 from flying out.

Draw material device 4 still includes a mount pad 41, the material drive mechanism that draws that the mount pad 41 set up through the bottom is connected with frame 1, be fixed with an installation panel 42 on the mount pad 41, syringe mechanism includes interconnect's syringe urceolus 43 and syringe piston rod 44, syringe urceolus 43 evenly wears to establish on the installation panel 42, the position of syringe urceolus 43 and the position one-to-one of reagent bottle 6, the end of syringe piston rod 44 is all fixed on a fixed plate 45, fixed plate 45 is in through the setting of a syringe sliding mechanism on the mount pad 41.

The material pumping driving mechanism comprises a material pumping driving motor 46 fixed on the frame 1, a main shaft of the material pumping driving motor 46 is connected with a material pumping bearing 47, the material pumping bearing 47 is sleeved at one end of a material pumping ball screw 48, the material pumping ball screw 48 passes through a bearing seat 49 on the frame 1, the material pumping ball screw 48 is sleeved with a driving bearing seat 410, and the mounting seat 41 is fixed on the driving bearing seat 410.

The injector sliding mechanism comprises a fixed plate sliding rail 411 fixed on the mounting seat 41, a fixed plate sliding block 412 is arranged at the bottom end of the fixed plate 45, the fixed plate sliding block 412 is movably arranged on the fixed plate sliding rail 411, a sliding cylinder 413 is fixed on the fixed plate 45, and a piston rod of the sliding cylinder 413 is connected with the fixed plate 45.

The reagent bottle pushing device 5 comprises a reagent bottle fixing seat 51, a moving mechanism is arranged at the bottom of the reagent bottle fixing seat 51, a connecting plate 52 is vertically arranged on the reagent bottle fixing seat 51, a second air cylinder 53 is fixed on the connecting plate 52, a hopper seat 54 is fixed on the piston rod of the second cylinder 53, a plurality of through holes are arranged on the hopper seat 54, a hopper 55 is fixedly arranged in each through hole, a turning fixing block 56 is fixed on the lower surface of the reagent bottle fixing seat 51, a spring 519 is arranged between the reagent bottle fixing seat 51 and the turning fixing block 56, a turning shaft 57 is fixedly arranged at the lower end of the turning fixed block 56 in a penetrating way, turning bearings 58 are sleeved at both ends of the turning shaft 57, the overturning bearings 58 are respectively arranged on two fixing supports 59 in a penetrating manner, the overturning shaft 57 is connected with an overturning driving mechanism, and the fixing supports 59 are connected with a sliding driving mechanism.

The reagent bottle 6 is placed on the reagent bottle fixing seat 51, the piston rod of the second air cylinder 53 descends to drive the hopper seat 54 to descend, and the lower end of the hopper 55 is inserted into the reagent bottle 6. The second cylinder 53 can not only drive the hopper 55 to insert into the reagent bottle 6, but also move up and down to shake the particles remaining on the hopper 55 into the reagent bottle 6.

Upset actuating mechanism establishes including the cover and fixes worm wheel 510 on the trip shaft 57 and worm 511 with worm wheel 510 complex, the fixed cover of worm 511 is established in the one end of a worm trace 512, worm trace 512 wears to establish on a worm fixing base 513, worm fixing base 513 is fixed on the fixed bolster 59, the other end of worm trace 512 is connected with a upset driving motor 514, upset driving motor 514 is fixed on the fixed bolster 59. The turning driving motor 514 is started to drive the worm connecting rod 512 to rotate, the worm linkage rod 512 drives the worm 511 to rotate, the worm 511 drives the worm wheel 510 to rotate, and the worm wheel 510 drives the turning shaft 57 to rotate, so that the reagent bottle fixing seat 51 is turned over. The overturning driving motor 514 drives the worm wheel 510 and the worm 511 to rotate and overturn, so that the overturning driving motor 514 can be ensured to be powered off at any position in the overturning process, the mechanism can be self-locked and stopped, and the safety performance is improved. The spring 519 between the reagent bottle fixing seat 51 and the overturning fixing block 56 enables the leakage hopper 55 to reduce impact on the worm wheel 510 and the worm 511 in the vertical vibration process, and the service life is prolonged. But also can press the leakage hopper 55 when the syringe outer cylinder 43 of the pumping device 4 is inserted into the leakage hopper 55, so that the particles can be directly pushed into the reagent bottle 6 from the pumping device 4 without leaking out of the gap of the leakage hopper 55.

The sliding driving mechanism comprises a sliding motor 515, the sliding motor 515 is connected with a main transmission shaft 516, the main transmission shaft 516 is connected with a driven transmission shaft 518 through a belt 517, the fixed support 59 is fixedly connected with the belt 517, and the main transmission shaft 516 and the driven transmission shaft 518 are fixed on the rack 1.

Whole reagent bottle pusher 5 can follow horizontal position upset 90 degrees, makes things convenient for putting into of reagent bottle 6, once can a plurality of reagent bottles 6 of clamping moreover, has improved bottling efficiency.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A granular quantitative bottling system, comprising a frame (1), characterized in that: the automatic feeding device is characterized in that a feeding device (2) is arranged on the rack (1), a storage device (3) is arranged below the feeding device (2), the storage device comprises a storage tank (31), a plurality of discharge holes (34) are uniformly formed in a left panel (32) and a right panel (33) of the storage tank (31), a horizontally-sliding material pumping device (4) is arranged on one side of the storage device (3), a plurality of injector mechanisms are movably arranged on the material pumping device (4), the material pumping device (4) further comprises a mounting seat (41), the mounting seat (41) is connected with the rack (1) through a material pumping driving mechanism arranged at the bottom, a mounting panel (42) is fixed on the mounting seat (41), the injector mechanisms comprise an injector outer cylinder (43) and an injector piston rod (44) which are mutually connected, and the injector outer cylinder (43) is uniformly arranged on the mounting panel (42) in a penetrating manner, the position of syringe urceolus (43) and the position one-to-one of reagent bottle, the end of syringe piston rod (44) is all fixed on a fixed plate (45), fixed plate (45) set up through a syringe slide mechanism on mount pad (41), but the opposite side of storage device (3) is provided with horizontal slip's reagent bottle pusher (5), a plurality of reagent bottles (6) have been placed in the activity on reagent bottle pusher (5), reagent bottle (6) and syringe mechanism all with discharge opening (34) level corresponds, feed arrangement (2), storage device (3), material pumping device (4) and reagent bottle pusher (5) all with a control center electric connection.

2. A particulate dosing bottling system as claimed in claim 1, wherein: feed arrangement (2) include a feeder hopper (21), the below of feeder hopper (21) is provided with chute feeder (22), be provided with quantitative feed mechanism in chute feeder (22), quantitative feed mechanism includes a pivot (23), pivot (23) are connected with first driving motor (24), the cover is equipped with cylinder (25) in pivot (23), a plurality of division boards (26) have been erect on cylinder (25), division board (26) will the internal partitioning of chute feeder (22) is between a plurality of ejection of compact, be provided with rotation inductive switch (27) in pivot (23), rotate inductive switch (27) with first driving motor (24) electric connection.

3. A particulate dosing bottling system as claimed in claim 1, wherein: the upper end of stock chest (31) is provided with the pan feeding mouth, the upper end of stock chest (31) still is connected with vibration mechanism, vibration mechanism is including fixing left fixed plate (35) and right fixed plate (36) on frame (1), all be fixed with slide rail (37) on left side fixed plate (35) and right fixed plate (36), it is provided with slider (38) all to slide on slide rail (37), and two slider (38) are fixed respectively on a left connecting block (39) and a right connecting block (310), the upper end setting of stock chest (31) is in between a left side connecting block (39) and the right connecting block (310), the front end of stock chest (31) is provided with first cylinder (311), the piston rod of first cylinder (311) is connected with stock chest (31).

4. A particulate dosing bottling system as claimed in claim 1, wherein: the outer side of the left panel (32) or the right panel (33) is horizontally fixed with a plurality of fixed shafts (312), the fixed shafts (312) are rotatably sleeved with movable baffle plates (313), and one movable baffle plate (313) shields one row of discharge holes (34).

5. A particulate dosing bottling system as claimed in claim 1, wherein: draw material actuating mechanism including fixing material driving motor (46) of taking out on frame (1), the main shaft of taking out material driving motor (46) is connected with one and takes out material bearing (47), take out material bearing (47) cover and establish the one end of taking out material ball (48), take out material ball (48) through bearing frame (49) on frame (1), it is equipped with one drive bearing frame (410) to take out material ball (48) and go up the cover, mount pad (41) are fixed on drive bearing frame (410).

6. A particulate dosing bottling system as claimed in claim 1, wherein: syringe slide mechanism is including fixing fixed plate slide rail (411) on mount pad (41), the bottom of fixed plate (45) is provided with fixed plate slider (412), fixed plate slider (412) activity sets up on fixed plate slide rail (411), be fixed with on fixed plate (45) slip cylinder (413), the piston rod of slip cylinder (413) with fixed plate (45) are connected.

7. A particulate dosing bottling system as claimed in claim 1, wherein: the reagent bottle pushing device (5) comprises a reagent bottle fixing seat (51), a moving mechanism is arranged at the bottom of the reagent bottle fixing seat (51), a connecting plate (52) is erected on the reagent bottle fixing seat (51), a second air cylinder (53) is fixed on the connecting plate (52), a hopper seat (54) is fixed on a piston rod of the second air cylinder (53), a plurality of through holes are formed in the hopper seat (54), a hopper (55) is fixedly arranged in each through hole, a turning fixing block (56) is fixed on the lower surface of the reagent bottle fixing seat (51), a spring (519) is arranged between the reagent bottle fixing seat (51) and the turning fixing block (56), a turning shaft (57) is fixedly arranged at the lower end of the turning fixing block (56) in a penetrating way, and turning bearings (58) are sleeved at the two ends of the turning shaft (57), the overturning device is characterized in that the overturning bearings (58) are respectively arranged on two fixing supports (59) in a penetrating mode, the overturning shaft (57) is connected with an overturning driving mechanism, and the fixing supports (59) are connected with a sliding driving mechanism.

8. A particulate dosing bottling system as claimed in claim 7, wherein: upset actuating mechanism establishes including the cover and fixes worm wheel (510) on trip shaft (57) and worm (511) with worm wheel (510) complex, the fixed cover of worm (511) is established in the one end of a worm trace (512), worm trace (512) are worn to establish on a worm fixing base (513), worm fixing base (513) are fixed on fixed bolster (59), the other end of worm trace (512) is connected with a upset driving motor (514), upset driving motor (514) are fixed on fixed bolster (59).

9. A particulate dosing bottling system as claimed in claim 7, wherein: the sliding driving mechanism comprises a sliding motor (515), the sliding motor (515) is connected with a main transmission shaft (516), the main transmission shaft (516) is connected with a driven transmission shaft (518) through a belt (517), the fixed support (59) is fixedly connected with the belt (517), and the main transmission shaft (516) and the driven transmission shaft (518) are fixed on the rack (1).