CN113908959B - Novel cardiovascular medicine raw materials is smashed device - Google Patents

Abstract

The invention provides a novel cardiovascular medicine raw material crushing device, which comprises: the material stirring device comprises a material stirring component, a crushed material component, an extrusion component, a guide component, a feeding hole, a material guide pipe, a fixing seat, a first driving rod, a fastening seat, a material stirring blade, a stirring bin, a cover cap, a guide block, a material conveying pipe, a driven rod, a sealing plate, a flange, a power rod, a direct current motor, a connecting seat, a connecting pipe, an upper guide roller and a powder component, wherein the crushed material component is arranged on the lower end surface of the material stirring component, the feeding hole is formed in the upper end of the material stirring component, a transmission rod is arranged at the upper end of the crushed material component, the cover cap is arranged at the upper end of the extrusion component, the direct current motor is arranged at the left end of the guide component, and the material conveying pipe is arranged at the upper end of the powder component. The problem that the device cannot fully crush the cardiovascular drug raw materials is solved, the problem that the storage time of the raw materials cannot be effectively prolonged in the crushing process of the original device is solved, and the crushing effect of the invention is improved.

Description

Novel cardiovascular medicine raw materials is smashed device

Technical Field

The invention relates to a novel cardiovascular drug raw material crushing device, and belongs to the technical field of cardiovascular drug raw material crushing.

Background

Natural chemical drugs can be classified into biochemical drugs and phytochemical drugs according to their sources. Antibiotics are generally prepared by microbial fermentation and belong to the field of biochemistry. Many of the semi-synthetic antibiotics that have appeared in recent years are products of a combination of biological and chemical synthesis. In the raw material medicines, the proportion of the variety, the yield and the output value of the organic synthetic medicine is the largest, and the organic synthetic medicine is a main support of the chemical pharmaceutical industry. The quality of the raw material medicaments determines the quality of the preparation, so the quality standard of the preparation has strict requirements, and countries in the world set strict national pharmacopoeia standards and quality control methods for the raw material medicaments which are widely applied.

Raw materials reducing mechanism uses extensively among the prior art, but can't fully smash cardiovascular medicine raw materials among the prior art, and smashes the storage time that the in-process can't effectively prolong the raw materials, can't effectively extrude simultaneously in raw materials production process, consequently, need a novel cardiovascular medicine raw materials reducing mechanism to solve above problem now urgently.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a novel cardiovascular medicine raw material crushing device, which solves the problems in the background technology by adding a stirring part, a crushing part, an extruding part, a guiding and conveying part, a connecting pipe, an upper guiding and conveying roller and a powder part.

The technical scheme of the invention is realized as follows: a novel cardiovascular drug raw material crushing device comprises: stir material part, crushed aggregates part, extrusion part, lead and send part, takeover, go up to lead and send roller and powder part, stir material part lower terminal surface and install crushed aggregates part, crushed aggregates part lower terminal surface installs extrusion part, extrusion part lower terminal surface installs and leads and send part, it installs the takeover to lead and send part right-hand member face, take over the up end and install and lead and send the roller, go up to lead and send roller right-hand member face and install the powder part, it includes feed inlet, passage, fixing base one, actuating lever, fastening seat, stirs material leaf, stirring storehouse, back up coat, guide block, connecting rod, two-way motor and fixing base two to stir the material part, the crushed aggregates part includes transfer line, left inlet pipe, left material room, driven lever, right inlet pipe, right material room, fixed block, guide roller, guide piece, baffle, crushed aggregates room, crushed aggregates roller one, crushed aggregates roller two, crushed aggregates grind one, guide lever two, crushed aggregates roller three, crushed aggregates grind two and feed opening down, the extrusion component comprises a cover cap, a moving groove, a hydraulic oil cylinder, a hydraulic oil seat, a hydraulic branch rod, a sealing plate, a crushing roller, an inclined plate, a rotary ring, a side pressure plate, a discharge hole, a sealing plate, a vibration motor, a pressing ring, a rubber block, a hydraulic rod, a hydraulic jack, a fastening pressing plate lock catch, a gasket I, a connecting rod, a contraction seat, a rotary shaft roller, a contraction seat, a hydraulic column, a hydraulic press, a fixing ring, a reinforcing layer, a driven shaft, a clamping block, a sleeve shaft, a longitudinal pulley, a transverse supporting rod, an electric motor, a gasket II, a spring I, a slow release seat, a contraction rod, a pressure rod, an energy impulse pad, a sealing inner ring, a gasket III, a deformation chamber, a spring II, a frame, a groove inner cavity and an interception chamber, the guiding component comprises a direct current motor, a fixing frame, a convex guide shaft, a shell, a guiding groove, a feeding groove, a guiding sheet and a guiding rod, the powder part comprises a conveying pipe, a powder bin, a powder valve, a heating roller, an electric heating ring, a guide ring, a shaft rod sleeve, a flange, a power rod, a servo motor and a connecting seat.

As a preferred embodiment, a feed inlet is formed in the upper end of the stirring component, a guide pipe is mounted on the lower end face of the feed inlet, a first fixing seat is mounted in the middle of the lower end face of the guide pipe, a driving rod is mounted on the lower end face of the fixing seat, a fastening seat is mounted on the outer side of the driving rod, a stirring blade is mounted on the outer side of the fastening seat, a stirring bin is formed in the outer side of the stirring blade, a reinforcing layer is mounted on the outer side of the stirring bin, a guide block is mounted on the lower end face of the reinforcing layer, a connecting rod is mounted on the lower end face of the driving rod, a bidirectional motor is mounted on the lower end face of the connecting rod, and a second fixing seat is mounted on the left end face of the bidirectional motor.

As a preferred embodiment, the feed inlet cross section is irregular trapezoid structure, the passage is made for the metal material, fixing base one is connected with the actuating lever, a fixing base internally mounted has the bearing, the actuating lever is connected fixedly with the fastening seat, the fastening seat has a plurality of groups, the fastening seat with stir the material leaf and be connected, it is provided with a plurality of groups to stir the material leaf, it is irregular rectangle structure to stir the storehouse cross section, the inside metal material that is of back up coat makes, the guide block is irregular right trapezoid structure, the connecting rod is connected with the actuating lever, the two-way motor is connected with the connecting rod, in the in-service use, drives through starting the two-way motor and stirs the material leaf and rotate to stir cardiovascular raw materials, and will stir the leading-in crushed aggregates part of garrulous raw materials inside.

As a preferred embodiment, the transfer line is installed to crushed aggregates part upper end, left inlet pipe is installed to transfer line left end face, left side material room has been seted up to the terminal surface under the inlet pipe of a left side, the terminal surface is installed the follower lever under the transfer line, right inlet pipe is installed to the follower lever right end face, right side material room has been seted up to terminal surface under the right side inlet pipe, the fixed block is installed to terminal surface under left side material room and the right side material room, install the guide roller between left side material room and the right side material room, the guide piece is installed in the guide roller outside, the baffle is installed to terminal surface under the fixed block, crushed aggregates room has been seted up to the guide roller lower extreme, crushed aggregates roller is installed to the inside left end face of crushed aggregates room, crushed aggregates roller is installed to crushed aggregates roller left end face, crushed aggregates roller is installed in the outside, crushed aggregates roller internally mounted has guide arm one, crushed aggregates roller internally mounted has guide arm two, crushed aggregates roller is installed to crushed aggregates roller one and crushed aggregates roller lower terminal surface installs crushed aggregates roller three, crushed aggregates roller outside installs crushed aggregates roller two, crushed aggregates roller lower extreme face has seted up the feed opening.

As a preferred embodiment, the transfer line is connected fixedly with the follower lever, left side inlet pipe is the same with right inlet pipe specification, right side material room is the same with left material room specification, left side inlet pipe, left material room and right inlet pipe, right material room are the symmetry installation, the fixed block is irregular trapezium structure, the fixed block is connected fixedly with the baffle, the crushed aggregates room cross section is circular structure, the guide roller is connected fixedly with the follower lever, the guide roller is connected fixedly with the guide piece, crushed aggregates roller one is the same with two specifications of crushed aggregates roller, crushed aggregates roller one, two sets of is installed in two outsides of crushed aggregates roller one and crushed aggregates roller intermeshing, guide arm one and two rear end face of guide arm install servo motor, in the in-service use, the raw materials through stirring the leading-in crushed aggregates part of material part after, through guide roller and guide piece with the leading-in crushed aggregates room of raw materials, grind one and crushed aggregates roller two and grind the work with the raw materials.

As a preferred embodiment, the shroud is installed to the extrusion part upper end, the shifting chute has been seted up to the shroud intermediate position, hydraulic cylinder is installed to the extrusion part left and right sides, hydraulic oil seat is all installed to the hydraulic cylinder inboard left and right sides, the shrouding is installed to hydraulic oil seat right-hand member face, the garrulous mill is installed to shrouding right-hand member face, the terminal surface is installed the swash plate under the garrulous mill, the swivel is installed to terminal surface under the shifting chute, the side guide is installed in the swivel outside, the discharge gate has been seted up to terminal surface under the shifting chute, the closure plate is installed to terminal surface under the swash plate left side, the vibrating motor is installed to terminal surface under the closure plate, the clamping ring is installed to vibrating motor lower terminal surface, the terminal surface is installed to terminal surface under the swash plate right side, the hydraulic stem is installed to terminal surface under the rubber block, the hydraulic stem is installed the hydraulic ram, fastening clamp plate is installed to terminal surface under the hydraulic ram.

As a preferred embodiment, the shroud cross section is the loop configuration, the shifting chute cross section is the bar structure, hydraulic cylinder, hydraulic branch pole, shrouding, garrulous pressure is ground and the swash plate all has two sets ofly, hydraulic oil seat and hydraulic cylinder and the inside UNICOM of hydraulic branch pole, two sets of hydraulic cylinder, hydraulic branch pole, shrouding, garrulous pressure are ground and the swash plate is the symmetry installation, servo motor is installed to swivel rear end face, the swivel is connected fixedly with the side clamp, the swivel is the moving mechanism, the side clamp meshes with the swash plate, vibrating motor, involution board and clamping ring are connected fixedly, the swash plate is the moving mechanism, in the in-service use, carries out careful garrulous pressure and shaping through garrulous pressure with the raw materials, prevents that the medicine raw materials from blockking up in equipment, effectively carries out careful crushed aggregates work with different kind of raw materials.

As a preferred embodiment, direct current motor is installed to the guide part left end, direct current motor right-hand member face installs the mount, protruding guide shaft is installed to the mount right-hand member face, the casing is installed to protruding guide shaft right-hand member face, the pan feeding groove has been seted up on casing upper end left side, the guide groove has been seted up to casing inside, casing internally mounted has the guide piece, the guide pole is installed to the guide piece inboard.

As a preferred embodiment, the left end of the swivel is provided with a lock catch, the right end face of the lock catch is provided with a first gasket, the right end face of the first gasket is provided with a connecting rod, the right end face of the connecting rod is provided with a shrink seat, the front end face of the swivel is provided with a rotating shaft roller, the right end face of the shrink seat is provided with a fixture block, the lower end face of the fixture block is provided with a shrink seat, the lower end face of the shrink seat is provided with a hydraulic column, the lower end face of the hydraulic column is provided with a hydraulic press, the lower end face of the hydraulic press is provided with a fixing ring, the rotating shaft roller is internally provided with a reinforcing layer, the rear end face of the rotating shaft roller is provided with a driven shaft, the rear end face of the fixture block is provided with a sleeve shaft, the rear end face of the sleeve shaft is provided with a transverse strut, the front sides of the left end and right end faces of the transverse strut are provided with longitudinal pulleys, the rear end face of the transverse strut is provided with an electric motor, the top end face of the inside of a second gasket, the lower end face of the second gasket is provided with a first spring, the lower end face of the first spring is provided with a slow release seat, the lower end face of the slow release seat is provided with a shrink seat, the lower end face of the slow release rod is provided with a shrink seat, the frame is provided with a moving chamber frame, the left side frame, and the moving chamber frame is provided with a moving chamber frame, and a moving frame.

As a preferred embodiment, the lock catch is of a movable structure, the cross section of the lock catch is of a semicircular structure, the first gasket is connected with the lock catch, the connecting rod is connected with the first gasket and the third gasket, the rotating shaft roller is connected with the driven shaft, the clamping block is connected with the compression seat, the compression seat is made of rubber, the hydraulic column is of a hollow structure, the rotating shaft roller is of a multilayer structure, a bearing is mounted inside the clamping block, the driven rod penetrates through the inside of the clamping block and is fixedly connected with the inner side of the bearing, the sleeve shaft is fixedly connected with the electric motor and the driven rod, an inner groove is formed in the rear side inside the frame, the longitudinal pulley is meshed with the inner side of the inner groove, a wheel frame is mounted on the rear end face of the longitudinal pulley, a transverse supporting rod is mounted on the rear end face of the wheel frame, the cross section of the second gasket is consistent with the cross section of the slow release seat, the slow release seat and the two gaskets are respectively mounted at the bottom end and the top end of the first spring, a damping rod is mounted on the inner side of the spring, the damping rod is of a contraction mechanism, the pressure rod and the compression rod are of a hollow structure, the pressure rod is communicated with the inner side of the compression rod, the cushion is made of an irregular cross section of the semi-chamber, the semi-ring, and the semi-chamber is provided with the semi-chamber, the semi-ring, and the semi-chamber.

As a preferred embodiment, the direct current motor is connected and fixed with the fixing frame, a fixing hole is formed in the fixing frame, the direct current motor, the convex guide shaft and the guide rod are connected, the guide sheet is of a spiral structure, the guide sheet is connected and fixed with the guide rod, and in actual use, the crushed raw materials are guided and sent to the inside of the connecting pipe and the inside of the upper guide roller through the guide groove by starting the direct current motor, so that the raw materials of the medicine are conveyed.

As a preferred embodiment, the powder part upper end is installed the conveying pipeline, the powder storehouse has been seted up to the terminal surface under the conveying pipeline, garrulous feed bin internally mounted has the branch lamella, divide lamella right-hand member face to install the guide ring, divide lamella inboard to install the warming mill, the electrical heating ring is installed to the warming mill outside, the warming mill right-hand member face is installed the axostylus axostyle cover, the flange is installed to axostylus axostyle cover right-hand member face, the power pole is installed to the flange right-hand member face, servo motor is installed to power pole right-hand member face, the connecting seat is installed to the terminal surface under the servo motor.

As a preferred embodiment, the inside of the conveying pipeline is communicated with the inside of the powder bin, a plurality of groups of powder petals are installed on each powder petal, each group of powder petals is installed at the left end and the right end of each guide ring, each powder petal and each guide ring are made of metal materials, the heating roller is fixedly connected with each powder petal and each guide ring, the shaft sleeve is fixedly connected with the heating roller, the shaft sleeve is fixedly connected with the power rod through a flange, the power rod is connected with the servo motor, and in actual use, the raw materials which are crushed again and dried, so that the raw materials of the cardiovascular drugs can be effectively stored and placed, and the service life of the raw materials is prolonged.

After the technical scheme is adopted, the invention has the beneficial effects that: the novel cardiovascular drug raw material crushing device comprises a stirring component, a crushing component, an extrusion component, a guiding and conveying component, a connecting pipe, an upper guiding and conveying roller and a powder component, the design facilitates improvement of the device, the problem that the device cannot sufficiently crush cardiovascular drug raw materials is solved, the problem that the storage time of the raw materials cannot be effectively prolonged in the crushing process of the original device is solved, and the crushing effect of the device is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a novel cardiovascular drug raw material crushing device according to the present invention;

fig. 2 is a front sectional view of a stirring component in the novel cardiovascular medicine raw material pulverizing device;

fig. 3 is an elevational sectional view of a crushing component of the novel cardiovascular pharmaceutical raw material crushing device;

fig. 4 is a front sectional view of an extruding part in the novel cardiovascular medicine raw material crushing device;

fig. 5 is an elevational view and a sectional view of a guiding component of the novel cardiovascular medicine raw material crushing device;

FIG. 6 is a front sectional view of a powder component of the novel cardiovascular drug raw material pulverizing apparatus according to the present invention;

FIG. 7 is a front sectional view of a swivel in the novel cardiovascular pharmaceutical raw material pulverizing apparatus according to the present invention;

FIG. 8 is a front sectional view of a side press plate of the novel cardiovascular drug raw material pulverizing device;

FIG. 9 is a top sectional view of a swivel in the novel cardiovascular pharmaceutical raw material pulverizing apparatus according to the present invention;

FIG. 10 is a top sectional view of a seat for a new type of device for pulverizing cardiovascular pharmaceutical raw materials in accordance with the present invention;

in the figure: 1-stirring part, 2-crushing part, 3-extruding part, 4-guiding part, 5-connecting pipe, 6-upper guiding roller, 7-powder part, 11-feeding port, 12-guiding pipe, 13-fixing seat I, 14-driving rod, 15-fastening seat, 16-stirring blade, 17-stirring bin, 18-reinforcing layer, 19-guiding block, 101-connecting rod, 102-bidirectional motor, 103-fixing seat II, 21-driving rod, 22-left feeding pipe, 23-left feeding chamber, 24-driven rod, 25-right feeding pipe, 26-right feeding chamber, 27-fixing block, 28-guiding roller, 29-guiding sheet, 201-partition plate, 202-crushing chamber, 203-crushing roller I, 204-crushing roller II 205-crushed aggregate mill I, 206-guide rod I, 207-guide rod II, 208-crushed aggregate roller III, 209-crushed aggregate mill II, 210-feed opening, 31-cover, 32-moving groove, 33-hydraulic oil cylinder, 34-hydraulic oil seat, 35-hydraulic pressure rod, 36-closing plate, 37-crushed crushing mill, 38-inclined plate, 39-rotating ring, 301-side pressure plate, 302-discharge opening, 303-closing plate, 304-vibration motor, 305-pressure ring, 306-rubber block, 307-hydraulic rod, 308-hydraulic top, 309-fastening pressure plate, 391-lock catch, 392-gasket I, 393-connecting rod, 394-contraction seat, 395-rotating shaft roller, 396-contraction seat, 397-hydraulic column, 398-a hydraulic machine, 399-a fixing ring, 3910-a reinforcing layer, 3911-a driven shaft, 3912-a fixture block, 3913-a sleeve shaft, 3914-a longitudinal pulley, 3915-a transverse supporting rod, 3916-an electric motor, 3011-a second gasket, 3012-a first spring, 3013-a slow release seat, 3014-a compression rod, 3015-a pressure rod, 3016-an energy-flushing pad, 3017-a sealing inner ring, 3941-a third gasket, 3942-a deformation chamber, 3943-a second spring, 321-a frame, a 322-a groove inner cavity, 323-a trapping chamber, 41-a direct current motor, 42-a fixing frame, 43-a convex guide shaft, 44-a shell, 45-a guide groove, 46-a feeding groove, 47-a guide sheet, 48-a guide rod, 71-a powder bin, 72-a powder bin, 73-a powder lot, 74-a heating roller, 75-a flap electric heating ring, 76-a guide ring, 77-a shaft rod sleeve, 78-a flange, 79-a power rod, a connecting seat, 701-a servo motor 702-a servo motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a novel cardiovascular drug material pulverizing device includes: the material stirring device comprises a material stirring component 1, a material crushing component 2, an extrusion component 3, a guiding and conveying component 4, a connecting pipe 5, an upper guiding and conveying roller 6 and a powder component 7, wherein the material crushing component 2 is installed on the lower end face of the material stirring component 1, the extrusion component 3 is installed on the lower end face of the material crushing component 2, the guiding and conveying component 4 is installed on the lower end face of the extrusion component 3, the connecting pipe 5 is installed on the right end face of the guiding and conveying component 4, the upper guiding and conveying roller 6 is installed on the upper end face of the connecting pipe 5, the powder component 7 is installed on the right end face of the upper guiding and conveying roller 6, the material stirring component 1 comprises a feeding port 11, a material guiding pipe 12, a fixed seat I13, a driving rod 14, a fastening seat 15, a material stirring blade 16, a stirring bin 17, a reinforcing layer 18, a guiding block 19, a connecting rod 101, a bidirectional motor 102 and a fixed seat II 103, the material crushing component 2 comprises a driving rod 21, a left feeding pipe 22, a left material chamber 23, a driven rod 24, a right feeding pipe 25, a right material chamber 26, a fixed block 27, a material guiding roller 28, a guiding roller 29, a material guiding plate 201, a baffle plate 201, a material crushing chamber 202, a crushing roller one guide rod 205, a crushing roller 203, a crushing roller 204, a guide rod 208, a second crushing roller 210 and a crushing roller 210, the extrusion component 3 comprises a cover 31, a moving groove 32, a hydraulic oil cylinder 33, a hydraulic oil seat 34, a hydraulic branch rod 35, a sealing plate 36, a crushing roller 37, a sloping plate 38, a rotating ring 39, a side pressing plate 301, a discharging port 302, a sealing plate 303, a vibrating motor 304, a pressing ring 305, a rubber block 306, a hydraulic rod 307, a hydraulic ram 308, a fastening pressing plate 309, a lock catch 391, a gasket I392, a connecting rod 393, a contraction seat 394, a rotating shaft roller 395, a contraction seat 396, a hydraulic column 397, a hydraulic machine 398, a fixing ring 399, a reinforcing layer 3910, a driven shaft 3911, a clamping block 3912, a sleeve shaft 3913, a longitudinal pulley 3914, a transverse supporting rod 3915, an electric motor 3916, a gasket II 3011, a spring I3012, a slow release seat 3013, a contraction rod 3014, the powder material component 7 comprises a material conveying pipe 71, a powder bin 72, a powder material flap 73, a heating roller 74, an electric heating ring 75, a guide ring 76, a shaft lever sleeve 77, a flange 78, a power lever 79, a servo motor 701 and a connecting seat 702.

Referring to fig. 1-2, a feed inlet 11 is formed in the upper end of a material stirring component 1, a material guide pipe 12 is mounted on the lower end surface of the feed inlet 11, a first fixing seat 13 is mounted in the middle of the lower end surface of the material guide pipe 12, a driving rod 14 is mounted on the lower end surface of the first fixing seat 13, a fastening seat 15 is mounted on the outer side of the driving rod 14, a material stirring blade 16 is mounted on the outer side of the fastening seat 15, a material stirring bin 17 is formed in the outer side of the material stirring blade 16, a reinforcing layer 18 is mounted on the outer side of the material stirring bin 17, a guide block 19 is mounted on the lower end surface of the reinforcing layer 18, a connecting rod 101 is mounted on the lower end surface of the driving rod 14, a bidirectional motor 102 is mounted on the lower end surface of the connecting rod 101, and a second fixing seat 103 is mounted on the left end surface of the bidirectional motor 102.

Referring to fig. 1-2, a cross section of a feeding hole 11 is of an irregular trapezoid structure, a material guide pipe 12 is made of a metal material, a first fixing seat 13 is connected with a driving rod 14, a bearing is installed inside the first fixing seat 13, the driving rod 14 is fixedly connected with a fastening seat 15, the fastening seat 15 is provided with a plurality of groups, the fastening seat 15 is connected with a material stirring blade 16, the material stirring blade 16 is provided with a plurality of groups, a cross section of a stirring bin 17 is of an irregular rectangular structure, the reinforcing layer 18 is made of a metal material inside, a guide block 19 is of an irregular right trapezoid structure, a connecting rod 101 is connected with the driving rod 14, and a bidirectional motor 102 is connected with the connecting rod 101.

Referring to fig. 1-3, a transmission rod 21 is installed at the upper end of a crushing component 2, a left feeding pipe 22 is installed on the left end face of the transmission rod 21, a left material chamber 23 is formed in the lower end face of the left feeding pipe 22, a driven rod 24 is installed on the lower end face of the transmission rod 21, a right feeding pipe 25 is installed on the right end face of the driven rod 24, a right material chamber 26 is formed in the lower end face of the right feeding pipe 25, a fixing block 27 is installed on the lower end faces of the left material chamber 23 and the right material chamber 26, a guide roller 28 is installed between the left material chamber 23 and the right material chamber 26, a guide sheet 29 is installed on the outer side of the guide roller 28, a partition plate 201 is installed on the lower end face of the fixing block 27, a crushing chamber 202 is formed in the lower end face of the guide roller 28, a first crushing roller 203 is installed on the left end face of the inner portion of the crushing chamber 202, a second crushing roller 204 is installed on the left end face of the first crushing roller 203, a first crushing roller 205 is installed on the outer side, a first crushing roller 204 is installed on the inner portion of the crushing roller 206, a second crushing roller 203, a second crushing roller 207 is installed on the inner portion of the crushing roller 203, a second crushing roller 207 is installed on the lower end face of the crushing roller 203, a crushing roller 208, a third crushing roller 208 is installed on the outer side of the crushing roller 210, and a lower end face of the crushing roller 210.

Referring to fig. 1-3, the driving rod 21 is connected and fixed to the driven rod 24, the left feeding tube 22 and the right feeding tube 25 have the same size, the right material chamber 26 and the left material chamber 23 have the same size, the left feeding tube 22 and the left material chamber 23 are symmetrically installed to the right feeding tube 25 and the right material chamber 26, the fixing block 27 has an irregular trapezoidal structure, the fixing block 27 is connected and fixed to the partition plate 201, the crushing chamber 202 has a circular cross section, the guide roller 28 is connected and fixed to the driven rod 24, the guide roller 28 is connected and fixed to the guide plate 29, the first crushing roller 203 and the second crushing roller 204 have the same size, the first crushing roller 205 is installed on the outer side of the second crushing roller 204, the first crushing roller 205 and the second crushing roller 209 are engaged with each other, the first guide rod 206 and the second guide rod 207 have the servo motor 701 on the rear end surfaces, in actual use, after the raw material is introduced into the crushing member 2 through the stirring member 1, the raw material is introduced into the crushing chamber 202 through the first crushing roller 28 and the second crushing roller 209.

Referring to fig. 1 to 4, a cover 31 is installed at the upper end of an extrusion component 3, a moving groove 32 is formed in the middle of the cover 31, hydraulic cylinders 33 are installed on the left and right sides of the extrusion component 3, hydraulic oil seats 34 are installed on the left and right sides of the inner side of the hydraulic cylinders 33, a sealing plate 36 is installed on the right end face of the hydraulic oil seats 34, a crushing roller 37 is installed on the right end face of the sealing plate 36, an inclined plate 38 is installed on the lower end face of the crushing roller 37, a swivel 39 is installed on the lower end face of the moving groove 32, a side pressing plate 301 is installed on the outer side of the swivel 39, a discharge port 302 is formed on the lower end face of the moving groove 32, a sealing plate 303 is installed on the lower end face of the left side of the inclined plate 38, a vibration motor is installed on the lower end face of the vibration motor, a pressing ring 305 is installed on the lower end face of the right side of the inclined plate 38, a rubber block 306 is installed on the lower end face of the rubber block 307, a hydraulic ram 308 is installed on the lower end face of the hydraulic ram 307, and a fastening pressing plate 309 is installed on the lower end face of the hydraulic ram 308.

Referring to fig. 1 to 4, the cross section of the cover 31 is an annular structure, the cross section of the moving chute 32 is a strip structure, two sets of hydraulic cylinders 33, hydraulic rods 35, a sealing plate 36, a crushing roller 37 and an inclined plate 38 are provided, the hydraulic oil seat 34 is communicated with the insides of the hydraulic cylinders 33 and the hydraulic rods 35, the two sets of hydraulic cylinders 33, hydraulic rods 35, the sealing plate 36, the crushing roller 37 and the inclined plate 38 are symmetrically installed, a servo motor 701 is installed on the rear end face of the swivel 39, the swivel 39 is fixedly connected with the side pressure plate 301, the swivel 39 is a movable mechanism, the side pressure plate 301 is engaged with the inclined plate 38, the vibration motor 304, the sealing plate 303 and the pressing ring 305 are fixedly connected, and the inclined plate 38 is a movable mechanism, in actual use, the raw materials are finely crushed and molded through the crushing roller 37, so that the medicine raw materials are prevented from being blocked in the equipment, and finely crushed materials of different types are effectively subjected to the fine crushing work.

Referring to fig. 6-10, a lock 391 is installed at the left end of the rotating ring, a first gasket 392 is installed at the right end face of the lock 391, a connecting rod 393 is installed at the right end face of the first gasket 392, a contraction seat 394 is installed at the right end face of the connecting rod 393, a rotating shaft roller 395 is installed at the front end face of the rotating ring, a clamping block 3912 is installed at the right end face of the contraction seat 394, a compression seat 396 is installed at the lower end face of the compression seat 396, a hydraulic column 397 is installed at the lower end face of the hydraulic column 397, a fixing ring 399 is installed at the lower end face of the hydraulic machine 398, a reinforcing layer 3910 is installed inside the rotating shaft roller 395, a driven shaft 3911 is installed at the rear end face of the rotating shaft roller 395, a sleeve shaft 3913 is installed at the rear end face of the clamping block 3912, a transverse strut 3915 is installed at the rear end face of the sleeve shaft 3913, and longitudinal pulleys 3914 are installed at the front sides of the left and right ends of the transverse strut 3915, an electric motor 3916 is installed on the rear end face of the transverse supporting rod 3915, a second gasket 3011 is installed at the top end inside the side pressing plate 301, a first spring 3012 is installed on the lower end face of the second gasket 3011, a first slow release seat 3013 is installed on the lower end face of the first spring 3012, a compression rod 3014 is installed on the lower end face of the slow release seat 3013, a pressure rod 3015 is installed on the lower end face of the compression rod 3014, an impact pad 3016 is installed on the lower end face of the pressure rod 3015, a sealing inner ring 3017 is installed on the lower end face of the impact pad 3016, a third gasket 3941 is installed on the right side inside the contraction seat 394, a deformation chamber 3942 is formed in the left end face of the third gasket 3941, a second spring 3943 is installed inside the deformation chamber 3942, a frame 321 is installed outside the moving groove, a groove inner cavity 322 is formed in the inner side of the frame 321, and a blocking chamber 323 is formed in the frame 321.

Referring to fig. 6-10, the lock catch 391 is a movable structure, the cross section of the lock catch 391 is a semicircular structure, the first gasket 392 is connected with the lock catch 391, the connecting rod 393 is connected with the first gasket 392 and the third gasket 3941, the rotating shaft roller 395 is connected with the driven shaft 3911, the block 3912 is connected with the contracting and pressing seat 396, the contracting and pressing seat 396 is made of rubber, the hydraulic column 397 is a hollow structure, the rotating shaft roller 395 is a multi-layer structure, the block 3912 is internally provided with a bearing, the driven rod penetrates through the block 3912 and is connected and fixed with the inner side of the bearing, the sleeve 3913 is connected and fixed with the electric motor 3916 and the driven rod, the rear side of the inner side frame 321 is provided with an inner groove, the longitudinal pulley 3914 is engaged with the inner side of the inner groove, and the rear end face of the longitudinal pulley 3914 is provided with a wheel carrier, the rear end face of the wheel frame is provided with two groups of transverse supporting rods 3915, the cross section of the second shim 3011 is consistent with that of the slow release seat 3013, the slow release seat 3013 and the second shim 3011 are respectively arranged at the bottom end and the top end of the first spring 3012, the damping rod is arranged on the inner side of the spring and is a contraction mechanism, the pressure rod 3015 and the contraction rod 3014 are both of a hollow structure, the pressure rod 3015 and the contraction rod 3014 are communicated with each other, the energy-impact pad 3016 is made of high-elastic rubber material, the inner sealing ring 3017 and the inner side of the bottom of the energy-impact pad 3016 are fixedly adhered, the third shim 3941 and the deformation chamber 3942 are identical in cross section specification, the cross section of the interception chamber 323 is of an irregular semicircular structure, the interception chamber 323 is provided with two groups, and the surface of the interception chamber 323 is of an arc-shaped structure

Referring to fig. 1-5, a direct current motor 41 is installed at the left end of the guiding and feeding component 4, a fixing frame 42 is installed at the right end face of the direct current motor 41, a convex guide shaft 43 is installed at the right end face of the fixing frame 42, a housing 44 is installed at the right end face of the convex guide shaft 43, a feeding groove 46 is formed at the left side of the upper end of the housing 44, a guiding and feeding groove 45 is formed in the housing 44, a guiding sheet 47 is installed in the housing 44, and a guiding and feeding rod 48 is installed at the inner side of the guiding sheet 47.

Referring to fig. 1-5, the dc motor 41 is fixed to the fixing frame 42, the fixing frame 42 is provided with a fixing hole therein, the dc motor 41, the convex guide shaft 43 and the guide rod 48 are connected, the guide vane 47 is of a spiral structure, and the guide vane 47 is fixed to the guide rod 48, so that in practical use, the dc motor 41 is started to guide the crushed raw material into the connecting pipe 5 and the upper guide roller 6 through the guide groove 45, and the raw material of the medicine is conveyed.

Referring to fig. 1-6, a material delivery pipe 71 is installed at the upper end of the powder component 7, a powder bin 72 is installed at the lower end surface of the material delivery pipe 71, a material distribution flap is installed inside the material bin, a guide ring 76 is installed at the right end surface of the material distribution flap, a heating roller 74 is installed inside the material distribution flap, an electric heating ring 75 is installed outside the heating roller 74, a shaft lever sleeve 77 is installed at the right end surface of the heating roller 74, a flange 78 is installed at the right end surface of the shaft lever sleeve 77, a power lever 79 is installed at the right end surface of the flange 78, a servo motor 701 is installed at the right end surface of the power lever 79, and a connecting seat 702 is installed at the lower end surface of the servo motor 701.

Referring to fig. 1-6, the inside of the material delivery pipe 71 is communicated with the inside of the powder bin 72, a plurality of groups of powder flaps 73 are installed on the powder flaps 73, a group of powder flaps 73 is installed on both left and right ends of each group of guide rings 76, the powder flaps 73 and the guide rings 76 are made of metal materials, the heating roller 74 is fixedly connected with the powder flaps 73 and the guide rings 76, the shaft rod sleeve 77 is fixedly connected with the heating roller 74, the shaft rod sleeve 77 is fixedly connected with the power rod 79 through the flange 78, and the power rod 79 is connected with the servo motor 701.

As an embodiment of the present invention: in the in-service use, start two-way motor 102, two-way motor 102 drives connecting rod 101 and rotates, connecting rod 101 drives actuating lever 14 rotatory, because fixing base 13 is connected with actuating lever 14, fixing base 13 internally mounted has the bearing, actuating lever 14 is connected fixedly with fastening seat 15, fastening seat 15 has a plurality of groups, fastening seat 15 is connected with stirring material leaf 16, actuating lever 14 drives and stirs material leaf 16 rotatory, stir material leaf 16 and stir cardiovascular raw materials and stir the bits of broken glass, make the inside large-scale raw materials granule of stirring storehouse 17 smash, and make the raw materials fall into stirring storehouse 17 inside, and the inside metal material that is of back up coat 18 makes, can effectively protect stirring storehouse 17 inner wall to avoid stirring storehouse 17 inner wall serious phenomenon of wearing and tearing when using for a long time.

As an embodiment of the present invention: in practical use, after the raw material is introduced into the crushing component 2 through the stirring component 1, because the bidirectional motor 102 is connected with the transmission rod 21 and the driven rod 24, the bidirectional motor 102 drives the transmission rod 21 to rotate, the transmission rod 21 drives the driven rod 24 to rotate, the driven rod 24 drives the guide roller 28 to rotate, and because the guide roller 28 is fixedly connected with the guide sheet 29, the raw material inside the left material chamber 23 and the right material chamber 26 is introduced into the crushing chamber 202 through the guide sheet 29, the servo motor is started, the crushing roller one 203, the crushing roller two 204 and the crushing roller three 208 rotate, and because the two groups of crushing roller one 205 and the crushing roller two 209 are meshed with each other, the cardiovascular medicine raw material is introduced between the crushing roller one 205 and the crushing roller two 209 to be extruded and crushed, and crushing work tasks can be completed when the cardiovascular medicine raw materials with different materials are crushed.

As an embodiment of the present invention: in practical use, after raw materials enter the extrusion part 3, the hydraulic cylinder 33 is started, the hydraulic oil cylinder 33 pumps internal hydraulic oil into the hydraulic oil seat 34, the hydraulic branch rod 35 is ejected out through the hydraulic oil seat 34, the sealing plate 36 moves towards the lower end along the inclined plate 38, the hydraulic cylinder 33, the hydraulic branch rod 35, the sealing plate 36, the crushing roller 37 and the inclined plate 38 are respectively provided with two groups, the side pressure plate 301 blocks the raw materials at the upper end of the inclined plate 38, the crushing roller 37 grinds and extrudes the raw materials with high strength to enable the raw materials to be powdery, the hydraulic press 398 is started, the hydraulic press 398 drives the hydraulic column 397 to move towards the upper end and simultaneously push the fixture block 3912 upwards, the bearing is arranged inside the fixture block 3912, the inside of the bearing is fixed with the driven shaft 3911, the electric motor 3916 and the rotating shaft roller 395 move upwards simultaneously, and the longitudinal pulley 3914 slides inside the inner groove during the movement of the electric motor 3916, when the lock catch 391 is moved upwards to the interception chamber 323, the lock catch 391 enters the interception chamber 323 along the arc surface of the edge of the interception chamber 323, the spring II 3943 recovers deformation and ejects the gasket III 3011 outwards while the connecting rod 933 is driven to move outwards, so that the lock catch 391 is meshed with and fixed to the interception chamber 323, the rotating ring 39 is driven to move upwards along the moving groove 32, the rotating ring 39 moves the side pressure plate 301 upwards, the side pressure plate 301 is contracted through the compression rod 3014 to contract and shorten the side pressure plate 301, the spring I3962 is compressed, when the side pressure plate 301 is clamped with the inclined plate 38, the spring I3962 can effectively maintain the clamping effect, the sealing inner ring 3967 can effectively prevent raw materials from entering the side pressure plate 301 during the rotation of the side pressure plate 301, the servo motor of start swivel 39 rear end, swivel 39 drives side pressure plate 301 and rotates, dial the raw materials that crushed aggregates part 2 fell and divide, effectively prevent the raw materials at the inside clot of extrusion part 3, thereby cause the inside jam of extrusion part 3, make the raw materials fall into through swash plate 38 and lead inside the part 4 of sending, start shock motor 304, shock motor 304 shakes swash plate 38, and hydraulic ram 308 is ejecting to the upper end with hydraulic stem 307, make swash plate 38 increase the angle, make inside remaining medicine raw materials push the part 4 of sending, reduce the remaining of the inside pharmacy raw materials of equipment.

As an embodiment of the present invention: in practical use, cardiovascular medicine raw materials enter the powder bin 72 through the material conveying rod 71, the servo motor 701 is started, the shaft rod sleeve 77 is fixedly connected with the heating roller 74, the shaft rod sleeve 77 and the power rod 79 are fixedly connected through the flange 78, the heating roller 74 can be effectively prevented from being broken at high temperature in the heating process, the power rod 79 is connected with the servo motor 701, the heating roller 74 rotates in the powder bin 72, the powder segment 73 and the guide ring 76 heat the electric heating ring 75 in the rotating process of the heating roller 74, the raw materials are dried and rolled, the cardiovascular medicine raw materials are kept in a dry state, and the storage time is prolonged.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (1)

1. A novel cardiovascular drug raw material crushing device comprises: stir material part (1), crushed aggregates part (2), extrusion part (3), lead and send part (4), takeover (5), go up guide and send roller (6) and powder part (7), its characterized in that: stir material part (1) lower terminal surface and install crushed aggregates part (2), crushed aggregates part (2) lower terminal surface installs extrusion part (3), extrusion part (3) lower terminal surface installs and leads send part (4), lead to send part (4) right terminal surface to install and take over (5), take over (5) upper end surface and install and lead and send roller (6), it installs powder part (7) to lead and send roller (6) right terminal surface, stir material part (1) including feed inlet (11), guide pipe (12), fixing base (13), actuating lever (14), fastening seat (15), stir material leaf (16), stir storehouse (17), reinforcement layer (18), guide block (19), connecting rod (101), two-way motor (102) and fixing base two (103), crushed aggregates part (2) are including transfer line (21), left side material room (22), left side material room (23), driven lever (24), right side material room (25), right side material room (26), fixed block (27), guide roller (28), guide piece (29), baffle (201), crushed aggregates room (202), two guide rod (204), one grinding roller (202), one guide arm (205), one grinding roller (204), one, the extrusion part (3) comprises a cover (31), a moving groove (32), a hydraulic oil cylinder (33), a hydraulic oil seat (34), a hydraulic pressure rod (35), a sealing plate (36), a crushing and grinding device (37), a sloping plate (38), a rotating ring (39), a side pressure plate (301), a discharge hole (302), a sealing plate (303), a vibration motor (304), a pressing ring (305), a rubber block (306), a hydraulic rod (307), a hydraulic ram (308), a fastening pressure plate (309), a lock catch (391), a first gasket (392), a connecting rod (393), a contraction seat (394), a rotating shaft roller (395), a contraction seat (396), a hydraulic column (397), a hydraulic machine (398), a fixing ring (399), a reinforcing layer (3910), a driven shaft (3911), a clamping block (3912), a sleeve shaft (3913), a longitudinal pulley (3914), a transverse support rod (3915), an electric motor (3916), a second gasket (3011), a first spring (3012), a slow release seat (3013), a slow release seat (3015), a pressure rod (3015), a pressure pad (3016), a sealing pad (3016), a pressure pad (3015), a pressure pad (capable of sealing pad, the powder conveying device comprises a gasket III (3941), a deformation chamber (3942), a spring II (3943), a frame (321), a groove inner cavity (322) and a trapping chamber (323), wherein the conveying part (4) comprises a direct current motor (41), a fixing frame (42), a convex guide shaft (43), a shell (44), a conveying groove (45), a feeding groove (46), a guide sheet (47) and a conveying rod (48), and the powder part (7) comprises a conveying pipe (71), a powder bin (72), a powder valve (73), a heating roller (74), an electric heating ring (75), a guide ring (76), a shaft rod sleeve (77), a flange (78), a power rod (79), a servo motor (701) and a connecting seat (702);

the material stirring device is characterized in that a feeding hole (11) is formed in the upper end of the material stirring component (1), a material guide pipe (12) is installed on the lower end face of the feeding hole (11), a first fixing seat (13) is installed in the middle of the lower end face of the material guide pipe (12), a driving rod (14) is installed on the lower end face of the first fixing seat (13), a fastening seat (15) is installed on the outer side of the driving rod (14), material stirring blades (16) are installed on the outer side of the fastening seat (15), a stirring bin (17) is installed on the outer side of the material stirring blades (16), a reinforcing layer (18) is installed on the outer side of the stirring bin (17), a guide block (19) is installed on the lower end face of the reinforcing layer (18), a connecting rod (101) is installed on the lower end face of the driving rod (14), a two-way motor (102) is installed on the lower end face of the connecting rod (101), and a second fixing seat (103) is installed on the left end face of the two-way motor (102);

the cross section of the feeding hole (11) is of an irregular trapezoid structure, the material guide pipe (12) is made of metal materials, the first fixing seat (13) is connected with the driving rod (14), a bearing is installed inside the first fixing seat (13), the driving rod (14) is fixedly connected with the fastening seat (15), the fastening seat (15) is provided with a plurality of groups, the fastening seat (15) is connected with the stirring blade (16), the stirring blade (16) is provided with a plurality of groups, the cross section of the stirring bin (17) is of an irregular rectangular structure, the reinforcing layer (18) is made of metal materials inside, the guide block (19) is of an irregular right trapezoid structure, the connecting rod (101) is connected with the driving rod, the bidirectional motor (102) is connected with the connecting rod (101), in actual use, the bidirectional motor (102) is started to drive the stirring blade (16) to rotate, the cardiovascular raw materials are stirred and the stirred raw materials are guided into the crushing component (2);

drive link (21) is installed to crushed aggregates part (2) upper end, left inlet pipe (22) is installed to drive link (21) left end face, left side material room (23) has been seted up to terminal surface under left side inlet pipe (22), driven lever (24) is installed to terminal surface under drive link (21), right inlet pipe (25) is installed to driven lever (24) right end face, right side material room (26) has been seted up to terminal surface under right side inlet pipe (25), fixed block (27) have been installed to terminal surface under left side material room (23) and right side material room (26), guide piece (29) are installed in guide piece (28) outside, baffle (201) are installed to fixed block (27) lower terminal surface, crushed aggregates room (202) have been seted up to lower terminal surface under guide piece (28), crushed aggregates roller (203) is installed to the inside left end face in crushed aggregates room (202), crushed aggregates roller (203) installs crushed aggregates roller two (204) with two inside guide bar (203), crushed aggregates roller (203) installs one crushed aggregates roller (203) and two inside guide piece (204) and one guide piece (203), the crushed aggregates rolls two (209) are installed in the three (208) outsides of crushed aggregates roller, feed opening (210) have been seted up to the terminal surface under the three (208) of crushed aggregates roller, transfer line (21) are connected fixedly with follower lever (24), left side inlet pipe (22) are the same with right inlet pipe (25) specification, right side material room (26) are the same with left material room (23) specification, left side inlet pipe (22), left material room (23) are installed for the symmetry with right inlet pipe (25), right material room (26), fixed block (27) are irregular trapezium structure, fixed block (27) are connected fixedly with baffle (201), crushed aggregates room (202) cross section is circular structure, the guide roller (28) is fixedly connected with the driven rod (24), the guide roller (28) is fixedly connected with the guide piece (29), the first crushed material roller (203) is identical to the second crushed material roller (204) in specification, the first crushed material roller (205) and the second crushed material roller (209) are arranged on the outer side of the second crushed material roller (204) and are meshed with each other, the servo motor (701) is arranged on the rear end face of the first guide rod (206) and the second guide rod (207), in actual use, the raw material is guided into the crushed material chamber (202) through the guide roller (28) and the guide piece (29) after being guided into the crushed material part (2) through the stirring part (1), carrying out crushing work on the raw materials through a crushing roller I (205) and a crushing roller II (209);

a cover (31) is installed at the upper end of the extrusion component (3), a moving groove (32) is formed in the middle of the cover (31), hydraulic oil cylinders (33) are installed on the left side and the right side of the extrusion component (3), hydraulic oil seats (34) are installed on the left side and the right side of the inner side of each hydraulic oil cylinder (33), a sealing plate (36) is installed on the right end face of each hydraulic oil seat (34), a crushing mill (37) is installed on the right end face of each sealing plate (36), an inclined plate (38) is installed on the lower end face of each crushing mill (37), a rotating ring (39) is installed on the lower end face of each moving groove (32), a side pressure plate (301) is installed on the outer side of each rotating ring (39), a discharge hole (302) is formed in the lower end face of each moving groove (32), a sealing plate (303) is installed on the lower end face of the left side of each inclined plate (38), a vibration motor is installed on the lower end face of each sealing plate (303), a compression ring (305) is installed on the lower end face of each inclined plate (38), a rubber block (306) is installed on the lower end face of each rubber block (306), a hydraulic rod (307), a hydraulic top pressure plate (308) is installed on the lower end face of the hydraulic pressure (309);

the cross section of the cover cap (31) is of an annular structure, the cross section of the moving groove (32) is of a strip structure, the hydraulic oil cylinder (33), the hydraulic branch rod (35), the sealing plate (36), the crushing roller (37) and the inclined plate (38) are respectively provided with two groups, the hydraulic oil seat (34) is communicated with the hydraulic oil cylinder (33) and the hydraulic branch rod (35), the two groups of hydraulic oil cylinder (33), the hydraulic branch rod (35), the sealing plate (36), the crushing roller (37) and the inclined plate (38) are symmetrically arranged, a servo motor (701) is arranged on the rear end face of the rotating ring (39), the rotating ring (39) is fixedly connected with the fine side plate (301), the rotating ring (39) is a movable mechanism, the side plate (301) is meshed with the inclined plate (38), the vibration motor (304), the sealing plate (303) and the compression ring (305) are fixedly connected, the inclined plate (38) is a movable mechanism, and in practical use, the crushed raw materials finely ground and crushed materials are pressed and crushed in the crushing forming equipment, so that the crushed materials can be prevented from being blocked effectively;

the left end of the rotating ring is provided with a lock catch (391), the right end face of the lock catch (391) is provided with a first gasket (392), the right end face of the first gasket (392) is provided with a connecting rod (393), the right end face of the connecting rod (393) is provided with a contraction seat (394), the front end face of the rotating ring is provided with a rotating shaft roller (395), the right end face of the contraction seat (394) is provided with a fixture block (3912), the lower end face of the fixture block (3912) is provided with a pressure-reducing seat (396), the lower end face of the pressure-reducing seat (396) is provided with a hydraulic column (397), the lower end face of the hydraulic column (397) is provided with a hydraulic machine (398), the lower end face of the hydraulic machine (398) is provided with a fixing ring (399), a reinforcing layer (3910) is arranged inside the rotating shaft roller (395), the rear end face of the rotating shaft roller (395) is provided with a driven shaft (3911), the rear end face of the fixture block (3912) is provided with a sleeve shaft (3913), the rear end face of the sleeve shaft (3913) is provided with a transverse strut (15), the front side of the left and right side strut (3915) and left and right side strut (3012) of the transverse strut (3915) is provided with a second gasket (3012), the lower end face of the electric side spring seat (3011), the motor (3012), a compression rod (3014) is installed on the lower end face of the slow release seat (3013), a pressure rod (3015) is installed on the lower end face of the compression rod (3014), an energy punching pad (3016) is installed on the lower end face of the pressure rod (3015), a sealing inner ring (3017) is installed on the lower end face of the energy punching pad (3016), a third gasket (3941) is installed on the right side inside the compression seat (394), a deformation chamber (3942) is formed in the left end face of the third gasket (3941), a second spring (3943) is installed inside the deformation chamber (3942), a frame (321) is installed on the outer side of the moving groove, a groove inner cavity (322) is formed in the inner side of the frame (321), and a trapping chamber (323) is formed in the frame (321);

the lock catch (391) is of a movable structure, the cross section of the lock catch (391) is of a semicircular structure, the first gasket (392) is connected with the lock catch (391), the connecting rod (393) is connected with the first gasket (392) and the third gasket (3941), the rotating shaft roller (395) is connected with the driven shaft (3911), the clamping block (3912) is connected with the compression seat (396), the compression seat (396) is made of rubber materials, the hydraulic column (397) is of a hollow structure, the rotating shaft roller (395) is of a multilayer structure, a bearing is arranged inside the clamping block (3912), the driven rod penetrates through the clamping block (3912) and is fixedly connected with the inner side of the bearing, the sleeve shaft (3913) is fixedly connected with the electric motor (3916) and the driven rod, the rear side inside the frame (321) is provided with an inner groove, the longitudinal pulley (3914) is mutually meshed with the inner side of the inner groove, the rear end face of the longitudinal pulley (3914) is provided with a wheel frame, the rear end face of the wheel frame is provided with a transverse supporting rod (30115), the second gasket (3011) is arranged on the cross section of the frame (3013), the compression rod (3015) and the compression rod (3015) is communicated with the compression rod mechanism, the compression rod (3015), the energy flushing pad (3016) is made of high-elasticity rubber materials, the sealing inner ring (3017) and the inner side of the bottom of the energy flushing pad (3016) are fixedly adhered, the specifications of the third gaskets (3941) and the cross section of the deformation chamber (3942) are the same, the cross section of the interception chamber (323) is of an irregular semicircular structure, two groups of interception chambers (323) are arranged, and the surface of the interception chamber (323) is of an arc structure;

the left end of the guide and delivery component (4) is provided with a direct current motor (41), the right end face of the direct current motor (41) is provided with a fixed frame (42), the right end face of the fixed frame (42) is provided with a convex guide shaft (43), the right end face of the convex guide shaft (43) is provided with a shell (44), the left side of the upper end of the shell (44) is provided with a feeding groove (46), the inside of the shell (44) is provided with a guide groove (45), the inside of the shell (44) is provided with a guide sheet (47), the inner side of the guide sheet (47) is provided with a guide and delivery rod (48), the direct current motor (41) is fixedly connected with the fixed frame (42), the inside of the fixed frame (42) is provided with a fixed hole, the direct current motor (41), the convex guide shaft (43) and the guide and delivery rod (48) are connected, the guide sheet (47) is of a spiral structure, the guide sheet (47) is fixedly connected with the guide and delivery rod (48), so that crushed raw materials are guided and delivered to the guide and the inside of the guide connection pipe (5) and the delivery roller (6) by starting the direct current motor (41);

the powder heating device is characterized in that a material conveying pipe (71) is installed at the upper end of the powder component (7), a powder bin (72) is arranged on the lower end face of the material conveying pipe (71), a material distributing valve is installed inside the powder bin, a guide ring (76) is installed on the right end face of the material distributing valve, a heating roller (74) is installed on the inner side of the material distributing valve, an electric heating ring (75) is installed on the outer side of the heating roller (74), a shaft rod sleeve (77) is installed on the right end face of the heating roller (74), a flange (78) is installed on the right end face of the shaft rod sleeve (77), a power rod (79) is installed on the right end face of the flange (78), a servo motor (701) is installed on the right end face of the power rod (79), a connecting seat (702) is installed on the lower end face of the servo motor (701), the inside of the material conveying pipe (71) is communicated with the inside of the powder bin (72) mutually, a plurality of groups are installed on the powder valve (73), each group is installed on the guide ring (76), a group of the powder valve (73) and the left end face and the right end face of the guide ring (76) is installed on the power rod sleeve (77) and the fixed with the power rod sleeve (79), the power rod (79) is connected with the servo motor (701), and in actual use, the crushed raw materials are crushed again and dried, so that the cardiovascular medicine raw materials can be effectively stored and placed, and the service life of the raw materials is prolonged.

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