CN104127322A - Production and processing system for biomedicine and chemical materials - Google Patents
Production and processing system for biomedicine and chemical materials Download PDFInfo
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- CN104127322A CN104127322A CN201410349980.6A CN201410349980A CN104127322A CN 104127322 A CN104127322 A CN 104127322A CN 201410349980 A CN201410349980 A CN 201410349980A CN 104127322 A CN104127322 A CN 104127322A
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Abstract
The invention belongs to the field of biomedicine material processing, and discloses a production and processing system for biomedicine and chemical materials. The production and processing system comprises an automatic feeding sub-system, a hybrid reaction sub-system, an auxiliary material supply system, a conveying sub-system, a dividing sub-system and a product collecting sub-system. By means of the production and processing system, the different sub-systems are matched, the manufacturing technology is highly integrated, intelligent volume production on processing of biomedicine material products and chemical material products is achieved, manpower can be greatly saved, and the labor production efficiency can be improved; by means of the production and processing system, unmanned and intelligent operation can be achieved, and the production and processing system has the large value on production of sterile materials and the products with high requirements for the environment cleanliness.
Description
Technical field
The invention belongs to biomedical material manufacture field, relate to the production and processing system of a kind of biomedicine, chemical materials.
Background technology
For the production of patch, adopt at present mostly the similar conventional production methods of preparing with plaster, generally comprise that raw material mixes and reaction, be coated with and spread out even, cut out and protect the flow processs such as paster.These flow processs are completed by artificial or equipment substep, lack level of integrated system, are difficult to realize automatization, intellectuality, asepticize production.
In order to realize the intelligent Production requirement of some biological medicine, chemical materials product, especially, to thering is the biological medicine of certain viscosity, the patch Realization of Product batch production of chemical material field, now provide a kind of new technical scheme.
Summary of the invention
The object of the invention is to overcome prior art defect, the production and processing system of a kind of biomedicine, chemical materials is provided.
Object of the present invention can be achieved through the following technical solutions:
A production and processing system for biomedicine, chemical materials, comprises auto feed subsystem, hybrid reaction subsystem, adjuvant feed system, transmit subsystem, cuts apart subsystem, product-collecting subsystem.
Auto feed subsystem is made up of the first hopper, automatic Metage Eguipment and the conveying bucket that are no less than one group, and automatic Metage Eguipment one end is provided with conveying bucket, and other end top is provided with the first hopper;
Hybrid reaction subsystem comprises reaction tank, pumping plant A, pumping plant D, pumping plant B and the second hopper, described reaction tank is positioned at conveying bucket below, and pumping plant A and pumping plant B to reaction tank, and are positioned at reaction tank both sides by device for cleaning pipeline, pumping plant D accesses reaction tank by pipeline in one end, and the other end leads to the second hopper;
Adjuvant feed system comprise be located on motor support base in order to carry the motor of lining material and with the handwheel being connected in order to the motor of carrying lining material, drive handwheel in order to the motor of carrying lining material, drive is located at the reel operation on handwheel, on reel, there is lining material, described lining material is successively by being located at the below of lining material guide reel, end guide reel and shears on casing, end guide reel drives by end guide reel motor, and shears is by two air cylinder driven;
Transmit subsystem comprises flattener, be positioned at the transporter at flattener two ends, conveyer belt, electromagnetism nut, flattener comprises flattener support, be positioned at the system frame at flattener support two ends, flattener support top is provided with relative flattener top roll and the flattener lower roll of many groups, flattener top roll is the setting of ladder spacing, the system frame upper end at described two ends is equipped with fixed bearing, fixed bearing has four, four fixed bearings connect by two leading screws, one end of two leading screws is equipped with transfer system motor, the flattener support of two leading screw one sides is provided with confined planes, described transporter is made up of the conveying roller being located on transfer roller frame, conveying roller drives by transmitting motor, the gap that described conveyer belt forms through the conveying roller at two ends with by flattener top roll and flattener lower roll, electromagnetism nut described in two is located at respectively on two leading screws, and flush with the conveyer belt on top,
Cut apart subsystem and comprise the dolly being arranged on the guide rail of gantry, dolly is provided with guide pillar, hydraulic jack and movable motor, dolly drives by movable motor, hydraulic jack and guide pillar lower end are connected with vacuum cup, vacuum cup downside is provided with two row suction nozzles, and hydraulic jack drives vacuum cup and suction nozzle to move up and down; Under the guide rail of described gantry, be provided with guide rail, guide rail is provided with cuts apart dolly, cutting apart dolly travels by the driven by motor enforcement wheel that travels that is located at lower end, cut apart dolly top one side and be provided with the motor-driven transverse cuts cutter of transverse cuts, perpendicular opposite side is provided with longitudinal cutting tool that longitudinal cutting motor drives;
Product-collecting subsystem comprises the Z-direction lead being located on ram, ram is located on base rail, Z-direction lead one side is provided with Z-direction leading screw in parallel, Z-direction leading screw drives by the Z-direction mobile motor of upper end, Z-direction lead is provided with perpendicular arm, arm one end is provided with sucker, the other end is provided with Z-direction travelling nut, Z-direction travelling nut is located on Z-direction leading screw, described ram is provided with the tooth sector driving by steer motor, Z-direction lead lower end is located on tooth sector, ram one side is provided with and vertically moves nut, vertically moving nut is located on the longitudinal leadscrew that is positioned at base rail one side, longitudinal leadscrew drives by the longitudinal mobile motor that is located at its one end.
Beneficial effect of the present invention: the present invention is by cooperatively interacting between each different sub-systems, by integrated production technology height, to some biological medicine, chemical materials product, especially the processing of patch has realized batch production, greatly save manpower, improve labor productivity, especially required the production of strict product to there is larger value for sterilizable material with to environment cleanliness.
Brief description of the drawings
For the ease of it will be appreciated by those skilled in the art that the present invention is further illustrated below in conjunction with accompanying drawing.
Fig. 1 is overall structure schematic diagram of the present invention.
Fig. 2 is automatic Metage Eguipment structural representation of the present invention.
Fig. 3 is reaction tank structural representation of the present invention.
Fig. 4 is adjuvant feed system structural representation of the present invention.
Fig. 5 is transmit subsystem structural representation of the present invention.
Fig. 6 is segmenting system partial structurtes schematic diagram of the present invention.
Fig. 7 is cut apart vehicle structure schematic diagram in segmenting system of the present invention.
Fig. 8 is the take out device structural representation of product-collecting subsystem of the present invention.
Fig. 9 is flattener top roll of the present invention and flattener lower roll structural representation.
Detailed description of the invention
A production and processing system for biomedicine, chemical materials, comprises the auto feed subsystem, hybrid reaction subsystem, adjuvant feed system, the transmit subsystem that are arranged in land for building 17, cuts apart subsystem and product-collecting subsystem.As shown in Figure 1, auto feed subsystem is made up of the first hopper 1 that is located at the conveying bucket 3 of automatic Metage Eguipment 2 one end and be positioned at above automatic Metage Eguipment 2 other ends.As Fig. 2, automatic Metage Eguipment 2 is made up of conveyor rollers wheel assembly 62, support 63 and conveyer belt 64.Be located on support 63, and to be positioned in the middle of conveyer belt 64 be belt conveyer scale 65.When production, three kinds of solid particles screen through little mesh filter screen, enter respectively three the first hoppers 1.In the first hopper 1, be provided with flow control mechanism, but cannot precisely control.Open the first hopper 1 opening, solid particle flows into automatic Metage Eguipment 2, transmits into reaction tank 4 through automatic Metage Eguipment 2.In this process, automatic Metage Eguipment 2 records the weight of every kind of solid particle, thereby reaches accurate reinforced object in proportion.Because solid particle flow cannot precisely be controlled, early stage is reinforced according to proportion scale, first carries out feed taking the time as function.Switch board 18 is by ratio requirement setting weight ratio, and three groups of belt conveyer scales obtain conveying weight numerical value and system value compares, then determine which road solid particle needs feed, until reach the solid particle charge ratio in range of error.
Close auto feed subsystem, enter and prepare the material of sticky shape stage, until that material of sticky shape is taken is complete, then repeat this flow process.
Hybrid reaction subsystem comprises reaction tank 4, pumping plant A7, pumping plant D6, pumping plant B5 and the second hopper 8, described reaction tank 4 is positioned at conveying bucket 3 belows, pumping plant A7 and pumping plant B5 by device for cleaning pipeline to reaction tank 4, and be positioned at reaction tank 4 both sides, pumping plant D6 accesses reaction tank 4 by pipeline in one end, and the other end leads to the second hopper 8 by a threeway.As Fig. 3, reaction tank 4 is to drive agitator 67 to move by reaction tank motor 66.Prepare material of sticky shape, start reaction tank motor 66 the solid material adding is evenly mixed, what make that subsequent chemical reaction carries out is more abundant, off-response pond motor 66.Start pumping plant A7 and pumping plant B5, filling chemical liquid A and chemical liquid B.Solution is annotated when appropriate, starts reaction tank motor 66, adds solution on one side, stir on one side,
Accelerate chemical reaction velocity, until solution is thick.According to need of production, primer pump C (not marking in figure), by thick material supply with filling production lines or primer pump D6 also can the supply system for lamellar material production line hopper.
Main to introduce the preparation of coating below, concrete structure of the present invention is described.
Primer pump D6, sends into the second hopper 8, the second hopper 8 discharging openings maintenance closed conditions of preparing coating production line top by applying ointment or plaster.Before preparation lamellar material, need to prepare special reel 94, reel 94 refers to canvas paper bag reel or canvas foil reel.As shown in Figure 4, adjuvant feed system comprise be located on motor support base 91 in order to carry motor 92 and the handwheel 93 of lining material, in order to carry the motor 92 of lining material by driving handwheel 93, the reel 94 that drive is located at handwheel 93 other ends moves, on reel 94, there is lining material 910, described lining material 910 is successively by being located at the below of canvas guide reel 95, end guide reel (not marking in figure) and shears 98 on casing 9, described end guide reel drives by end guide reel motor 96, and described shears 98 drives by two cylinders 97; Start in order to carry the motor 92 of lining material, lining material 910 is delivered to and exceeded flattener 10 first flattener top rolls 102 and flattener lower roll 108 places, stop motor.
As shown in Figure 5, transmit subsystem comprises flattener 10, be positioned at the transporter at flattener 10 two ends, conveyer belt 101, electromagnetism nut 105, described flattener 10 comprises flattener support 104, be positioned at the system frame 103 at flattener support 104 two ends, described flattener support 104 tops are provided with four relative flattener top rolls 102 and flattener lower roll 108, system frame 103 upper ends at described two ends are equipped with rigid bearing 109, fixed bearing 09 has four, four fixed bearings 109 connect by two leading screws 106, the flattener support 104 of leading screw 106 1 sides is provided with confined planes 112, one end of described two leading screws 106 is respectively equipped with transfer system motor 107, described transporter is made up of the conveying roller 111 being located on transfer roller frame 110, conveying roller 111 drives by the motor transmitting, conveyer belt 101 is through conveying roller 111 and the flattener top roll 102 at two ends, between flattener lower roll 108, described two electromagnetism nuts 105 are located at respectively on two leading screws 106, flush with conveyer belt 101.Start electromagnetism nut 105, but do not move, the canvas paper metal edges of the lining material 910 that the motor in order to carry lining material 92 is sent holds.Another kind of embodiment is herein: the canvas paper of lining material 910 is cardboard limit, by pneumatic adhesive, canvas paper cardboard limit is held.
Now, use air compressor that clean gas is passed into the second hopper 8 blow vents, pressurization, opens the second hopper 8 discharging openings and carries out feeding, and thick biological medicine and chemical materials are just extruded from hopper, and feeding finishes, and closes gas-pressurized.
Apply ointment or plaster in the uniform lining material 910 piling up on conveyer belt 101.Start in order to carry the motor 92 of lining material, start the motor of conveyer belt 101, conveyer belt 101 is with low speed moving linearly.The thick material of piling up is with conveyer belt 101, lining material 910 motions, and start electromagnetism nut 105 simultaneously, gradually by the flattener top roll 102 and the flattener lower roll 108 that are oppositely arranged, utilize flattener top roll 102 as shown in Figure 9 to arrange with flattener lower roll 108 ladder spacing, make thick material gradually by flattener top roll 102, thereby make to apply ointment or plaster evenly continuous being shakeout.Export to flattener 10, obtain the coating of even thickness.In this process, canvas movement velocity V1, line speed V2 and nut speed V3 have following requirement: V1=V2=V3.If V1 < is V3, can be unsettled between canvas and conveyer belt; If V3 < is V2, coating and canvas junction easily produce pleat, cross flattener and easily stop up before, cause product waste.
, be provided with after meter long pass sensor (contactless or contact) perception certain length lining material 910 in transmit subsystem junction at adjuvant feed system, send canvas machine exit shears 98 to move, cut off canvas, close to carry the motor 92 of lining material simultaneously.
Electromagnetism nut 105 moves to flattener 10 exit length and equals sent canvas length, stops electromagnetism nut 105, transfer system motor 107 and conveyer belt motor.Above coating, spread plastic sheeting.Treat that medicine monoblock lamellar material is transported to next procedure, then repeat aforesaid operations step.
As Fig. 1, one end of transmit subsystem is positioned at a station below cutting apart subsystem, in Fig. 6, cut apart subsystem and comprise the dolly 27 being arranged on gantry guide rail 12, dolly 27 is provided with guide pillar 24, hydraulic jack 23 and movable motor 22, dolly 27 drives an axle by movable motor 22, and two sections, axle has pulley, and pulley moves on gantry guide rail 12.Hydraulic jack 23 and guide pillar 24 lower ends are connected with vacuum cup 11, and vacuum cup 11 downsides are provided with two row suction nozzles 26, and hydraulic jack 23 drives vacuum cup 11 and suction nozzle 26 to move up and down, and vacuum cup 11 adsorbs the monoblock lamellar material in flattener 10 exits; Another station below of cutting apart subsystem is provided with guide rail 14, as Fig. 7, guide rail 14 is provided with cuts apart dolly 13, cutting apart dolly 13 drives enforcement wheel 32 to travel by the motor 35 that travels that is located at lower end, cut apart dolly 13 top one sides and be provided with the transverse cuts cutter 34 that transverse cuts motor 33 drives, perpendicular opposite side is provided with longitudinal cutting tool 37 that longitudinal cutting motor 38 drives, cut apart dolly 13 upper surfaces be provided with transverse cuts cutter 34, longitudinally cutting tool 37 adapt laterally, longitudinal grooving.While making finished product lamellar material, cut apart dolly 13 motor 35 that travels and start, cut apart dolly 13 and travel to a station below of cutting apart subsystem, added an electromagnetic clutch at motor 35 rear portions of travelling, normally closed.While travelling motor 35 power-off in service, electromagnetic clutch is held motor shaft tightly, thereby reaches in the braking of cutting apart dolly 13 transport conditions; With should cut apart dolly 13 dead ship condition time, because electromagnetic clutch is held motor shaft tightly, to cut apart dolly 13 and cannot move easily thereby reach, this calls parking braking.Vacuum cup 11 moves to absorption monoblock lamellar material to cut apart dolly 13 upper surfaces, and longitudinally (dolly travel direction) cutting motor 38 starts, and circumgyration incision rear motor is inverted to initial position.Transverse cuts motor 33 starts, and circumgyration incision rear motor is inverted to initial position.
Cut apart dolly 13 and move to take out device place, take out device feeding, piles up.As Fig. 8, described product-collecting subsystem comprises the Z-direction lead 44 being located on ram 15, ram 15 is located on base rail 41, Z-direction lead 44 1 sides are provided with Z-direction leading screw 47 in parallel, Z-direction leading screw 47 drives by the Z-direction mobile motor 48 of upper end, Z-direction lead 44 is provided with perpendicular arm 49, arm 49 one end are provided with sucker 50, the other end is provided with Z-direction travelling nut 52, Z-direction travelling nut 52 is located on Z-direction leading screw 47, described ram 15 is provided with the tooth sector 45 driving by steer motor 46, Z-direction lead 44 lower ends are located on tooth sector 45, ram 15 1 sides are provided with and vertically move nut 51, vertically moving nut 51 is located on the longitudinal leadscrew 43 that is positioned at base rail 41 1 sides, longitudinal leadscrew 43 drives by the longitudinal mobile motor 42 that is located at its one end.Steer motor 46 drives Z-direction lead 44 to rotate by tooth sector 45, and Z-direction mobile motor 48 is with swing arm 49, sucker 50 to move up and down, and longitudinal mobile motor 42 drives ram 15 to move by longitudinal leadscrew 43, by sucker 50, lamellar material is moved to storage bin 16 places.Above-mentioned each action forms three-shaft linkage, the interlock of two moving directions and direction of rotation, and automatization level is high.
The present invention is integrated together belt conveyer scale and transport tape, thereby realizes the Real-Time Monitoring for automatic assembly line weight of material; Be equipped with sensor weight data and theoretical material proportional numerical value are compared, control the keying of three supply lines, carry out " expecting less feed supplement ", mix thereby realize the accurate ratio of material.
Reaction tank mainly plays hybrid solid granule and stirs to promote abundant chemical reaction.Primary structure is to be with angled puddler, and under driven by motor, rotary movement is carried out in rotation, controls the rotating of motor, before reaching, turn over and after turn over effect.Reaction tank opening communicates with the accurate distribution mechanism of belt conveyer scale.In addition be connected with two solubilization liquid pumps and two feeding pumps connections.
Two kinds of pumping plants in streamline, are used.Pumping plant A7 and pumping plant B5 are for carrying chemical solution to reaction tank.Pumping plant D6 is for the thick half-finished conveying to canning line and tablet stockline.
Sending canvas machine is the equipment for the feeding of special canvas-cardboard/foil reel.Send canvas process: reel is installed and sent canvas machine, hand wheel regulates and sends canvas to conveyer belt; When canvas need to be sent, start canvas reel feeding motor and outlet roller feeding motor simultaneously; When the long end of canvas meter, start canvas exit shears, cut off canvas, motor stopping braking.
Hopper used two in whole piece streamline in.The first hopper 1, deposits and feeding in order to solid particle.The second hopper 8 is in order to thick half-finished storage, and has an air inlet, in order to pass into a certain amount of gas, auxiliary feeding.
Flattener is mainly used in thick semi-finished product to make bulk lamellar material.Here used Promethean height gradually to cut down thickness material height mode, finally can realize continuous uniform and shakeout coating.
In canvas motor process, also can there are other two kinds of forms that drag canvas mechanism: canvas-paperboard structure: leading screw drives a nut moving linearly, and Pneumatic suction cup is housed on nut, and sucker is inhaled mutually with cardboard, and cardboard moves with nut.Canvas-metal structure: leading screw drives a nut moving linearly, and solenoid is housed in nut, after coil electricity, with metallic plate adhesive on canvas, metallic plate moves with nut.
Vacuum cup dolly is transferred to and is cut apart dolly for bulk lamellar material conveyer belt.Vacuum cup dolly mainly contains following a few part and forms: a. dolly, and dolly is placed on portal frame U-bar guide rail, and drive motors drives walking; B. hydraulic system, the oil cylinder of hydraulic system is for driving vacuum cup to move up and down at vertical direction; C. vacuum cup is used for capturing canvas.
Cutting apart dolly has the transhipment half-finished transfer of coating and cuts apart.On bottom surface, be provided with one group of guide rail, the realization of motor for transport function of travelling.On it, be also provided with horizontal and vertical cutting blade, upper surface is processed with rectangular channel, realizes shear action together with cutting blade.
Product-collecting subsystem is for realizing picking and placeing and stacking of coating.Pick and place is by the evacuation of vacuum cup and the realization of blowing.Take out device employing vertically moves, and vertical direction moves the interlock of rotating three degree of freedom with horizontal direction, realizes accurate crawl and the accurate stacking of material in Cutting dolly plane,
Auto feed subsystem disclosed by the invention, hybrid reaction subsystem, adjuvant feed system, transmit subsystem, cut apart subsystem, product-collecting subsystem, subsystems both can be collaborative by industrial computer software and switch board 18 practical functions, again can independent operating, to serve as single track process equipment, in addition can miniaturization, meet medium and small production-scale automated production demand.Adopt the present invention, can realize unmanned, intelligent operation, especially require the production of strict product to there is larger value for sterilizable material with to environment cleanliness.
Above content is only to structure example of the present invention and explanation; affiliated those skilled in the art make various amendments to described specific embodiment or supplement or adopt similar mode to substitute; only otherwise depart from the structure of invention or surmount this scope as defined in the claims, all should belong to protection scope of the present invention.
Claims (1)
1. a production and processing system for biomedicine, chemical materials, comprises auto feed subsystem, hybrid reaction subsystem, adjuvant feed system, transmit subsystem, cuts apart subsystem, product-collecting subsystem, it is characterized in that,
Described auto feed subsystem is made up of the first hopper (1), automatic Metage Eguipment (2) and the conveying bucket (3) that are no less than a group, automatic Metage Eguipment (2) one end is provided with conveying bucket (3), and other end top is provided with the first hopper (1);
Described hybrid reaction subsystem comprises reaction tank (4), pumping plant A (7), pumping plant D (6), pumping plant B (5) and the second hopper (8), described reaction tank (4) is positioned at conveying bucket (3) below, pumping plant A (7) and pumping plant B (5) by device for cleaning pipeline to reaction tank (4), and be positioned at reaction tank (4) both sides, pumping plant D (6) accesses reaction tank (4) by pipeline in one end, and the other end leads to the second hopper (8);
Described adjuvant feed system comprises that being located at motor support base (91) goes up the handwheel (93) in order to carry the motor (92) of lining material and to be connected with the motor (92) in order to carry lining material, drive handwheel (93) in order to the motor (92) of carrying lining material, drive is located at reel (94) operation on handwheel (93), on reel (94), there is lining material (910), described lining material (910) is successively by being located at the lining material guide reel (95) on casing (9), the below of end guide reel and shears (98), end guide reel drives by end guide reel motor (96), shears (98) drives by two cylinders (97),
Described transmit subsystem comprises flattener (10), be positioned at the transporter at flattener (10) two ends, conveyer belt (101), electromagnetism nut (105), flattener (10) comprises flattener support (104), be positioned at the system frame (103) at flattener support (104) two ends, flattener support (104) top is provided with relative flattener top roll (102) and the flattener lower roll (108) of many groups, flattener top roll (102) is the setting of ladder spacing, system frame (103) upper end at described two ends is equipped with fixed bearing (109), fixed bearing (109) has four, four fixed bearings (109) connect by two leading screws (106), one end of two leading screws (106) is equipped with transfer system motor (107), the flattener support (104) of two leading screw (106) one sides is provided with confined planes (112), described transporter is made up of the conveying roller (111) being located on transfer roller frame (110), conveying roller (111) drives by transmitting motor, the gap that described conveyer belt (101) forms through the conveying roller (111) at two ends with by flattener top roll (102) and flattener lower roll (108), electromagnetism nut (105) described in two is located at respectively on two leading screws (106), and flush with the conveyer belt (101) on top,
The described subsystem of cutting apart comprises the dolly (27) being arranged on gantry guide rail (12), dolly (27) is provided with guide pillar (24), hydraulic jack (23) and movable motor (22), dolly (27) drives by movable motor (22), hydraulic jack (23) and guide pillar (24) lower end are connected with vacuum cup (11), vacuum cup (11) downside is provided with two row suction nozzles (26), and hydraulic jack (23) drives vacuum cup (11) and suction nozzle (26) to move up and down; Under described gantry guide rail (12), be provided with guide rail (14), guide rail (14) is provided with cuts apart dolly (13), cutting apart dolly (13) drives enforcement wheel (32) to travel by being located at the motor that travels (35) of lower end, cut apart dolly (13) top one side and be provided with the transverse cuts cutter (34) that transverse cuts motor (33) drives, perpendicular opposite side is provided with longitudinal cutting tool (37) that longitudinal cutting motor (38) drives;
Described product-collecting subsystem comprises the Z-direction lead (44) being located on ram (15), ram (15) is located on base rail (41), Z-direction lead (44) one sides are provided with Z-direction leading screw (47) in parallel, Z-direction leading screw (47) drives by the Z-direction mobile motor (48) of upper end, Z-direction lead (44) is provided with perpendicular arm (49), arm (49) one end is provided with sucker (50), the other end is provided with Z-direction travelling nut (52), Z-direction travelling nut (52) is located on Z-direction leading screw (47), described ram (15) is provided with the tooth sector (45) driving by steer motor (46), Z-direction lead (44) lower end is located on tooth sector (45), ram (15) one sides are provided with and vertically move nut (51), vertically moving nut (51) is located on the longitudinal leadscrew (43) that is positioned at base rail (41) one sides, longitudinal leadscrew (43) drives by the longitudinal mobile motor (42) that is located at its one end.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106580705A (en) * | 2015-12-18 | 2017-04-26 | 南京理工大学 | Fully automatic ointment machine based on heavy viscous ointment coating formation |
CN107673090A (en) * | 2017-10-31 | 2018-02-09 | 宁夏森淼枸杞科技开发有限公司 | Lycium chinense splits and dynamic benefit amount system |
CN109568136A (en) * | 2018-12-24 | 2019-04-05 | 济南君浩医药科技有限公司 | A kind of plaster production equipment |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE3513288A1 (en) * | 1985-04-13 | 1986-10-23 | Dr. Karl Thomae Gmbh, 7950 Biberach | METHOD AND DEVICE FOR THE APPLICATION OF EYE RODS WITH ACTIVE SUBSTANCE SOLUTIONS OR SUSPENSIONS |
CN201684696U (en) * | 2010-05-13 | 2010-12-29 | 上海现代药物制剂工程研究中心有限公司 | Skeleton-type transdermal patch applying machine |
CN102178605B (en) * | 2011-03-09 | 2014-03-26 | 天津大学 | Traditional Chinese medicine cataplasma forming device with automatic detection function |
CN103655193A (en) * | 2012-09-12 | 2014-03-26 | 黄石卫生材料药业有限公司 | Plaster patch manufacturing device capable of adjusting plaster thickness |
CN203425258U (en) * | 2013-09-05 | 2014-02-12 | 河南羚锐制药股份有限公司 | Coating device for hot-pressing process |
CN103767877B (en) * | 2013-12-31 | 2015-08-12 | 浙江鼎泰药业有限公司 | Corn plaster combined packet is installed |
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2014
- 2014-07-21 CN CN201410349980.6A patent/CN104127322B/en not_active Expired - Fee Related
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CN106580705B (en) * | 2015-12-18 | 2019-04-16 | 南京理工大学 | A kind of full-automatic plaster machine based on the sticky plaster coat forming of weight |
CN107673090A (en) * | 2017-10-31 | 2018-02-09 | 宁夏森淼枸杞科技开发有限公司 | Lycium chinense splits and dynamic benefit amount system |
CN109568136A (en) * | 2018-12-24 | 2019-04-05 | 济南君浩医药科技有限公司 | A kind of plaster production equipment |
CN109568136B (en) * | 2018-12-24 | 2024-07-05 | 济南君浩医药科技有限公司 | Plaster production facility |
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