CN116272014B - Heparin sodium precipitation tank with separation device - Google Patents

Abstract

The invention relates to the technical field of precipitate separators, in particular to a heparin sodium precipitation tank with a separation device, which comprises a precipitation tank body, wherein a plurality of supports are fixed on the bottom surface of the precipitation tank body, a sealing cover is arranged at the top of the precipitation tank body, a feeding pipe is inserted and fixed on the surface of the sealing cover, a discharge valve pipe is inserted and fixed on the bottom surface of the precipitation tank body, a separation frame is arranged in the precipitation tank body, a servo motor is fixed on the bottom surface of the separation frame, a driving shaft of the servo motor penetrates through the separation frame, and a bearing seat is sleeved at the top end of the driving shaft of the servo motor; the beneficial effects are as follows: according to the heparin sodium precipitation tank with the separation device, precipitated heparin sodium is stored through the separation frame, the precipitated heparin sodium is prevented from being carried and discharged when the mixed filtrate is discharged through the discharge valve pipe, the shaking component is additionally arranged in the separation frame, and when the servo motor drives the shaking component to work, the separation frame vibrates, so that moisture in the precipitated heparin sodium contained in the separation frame is shaken off.

Description

Heparin sodium precipitation tank with separation device

Technical Field

The invention relates to the technical field of precipitate separators, in particular to a heparin sodium precipitation tank with a separation device.

Background

Heparin sodium is an anticoagulant, can interfere with many links of the blood coagulation process, and has anticoagulation effect in vivo and in vitro. The mechanism of action is relatively complex, and the latter is enhanced by binding to antithrombin III (AT-III), which in turn is responsible for the inhibition of activated II, IX, X, XI and XII coagulation factors, the consequences of which relate to the inhibition of platelet aggregation and destruction, the inhibition of the formation of thromboplastin, the inhibition of prothrombin to thrombin and the inhibition of thrombin, thus the inhibition of fibrinogen to fibrin, thus exerting an anticoagulant effect.

In the prior art, the conventional process of heparin sodium in the current market in the production process is that a mixed solution containing heparin components is placed in a plastic container or a cement cavity with a glass fiber reinforced plastic inner cavity, alcohol is added to stir, the heparin sodium forms a precipitate under the action of the alcohol and is separated from the mixed solution, the mixed solution is discharged after the reaction is completed, and the heparin sodium is extracted from a reaction container.

However, when the mixed solution after the reaction is discharged, the precipitated heparin sodium flows out together with the solution, so that the precipitation amount of the heparin sodium is reduced; and the precipitating tank for the precipitated heparin sodium lacks a structure for extracting and taking out the heparin sodium, the water content in the precipitated heparin sodium is high, water is dropped everywhere during the taking out, and heparin sodium precipitates are adhered to the inner wall of the precipitating tank, so that the total amount of the taken heparin sodium is small.

Disclosure of Invention

The invention aims to provide a heparin sodium precipitation tank with a separation device, so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a heparin sodium precipitation tank with separator, includes the precipitation tank jar body, and the bottom surface of the precipitation tank jar body is fixed with a plurality of supports, and the top of the precipitation tank jar body is equipped with the closing cap, and the surface grafting of closing cap just is fixed with the material pipe of throwing, and the bottom surface grafting of the precipitation tank jar body just is fixed with the relief valve pipe, the internally mounted of the precipitation tank jar body has the separator, and the bottom surface of separator is fixed with servo motor, and servo motor's drive shaft runs through the separator, and servo motor's drive shaft top cover is equipped with the bearing frame, and the bearing frame is fixed in the roof bottom surface of closing cap, and servo motor's drive shaft surface is fixed with and shakes the material subassembly for trembles the liquid separation in the inside precipitate of separator, and trembles the material subassembly and be in the separator inside, servo motor's drive shaft surface is fixed with the stirring board, and the surface of stirring board is equipped with antiseized material subassembly that shakes for tremble the precipitate that adheres to the stirring board surface.

Preferably, the closing cap cover is established on the top of the precipitation tank jar body, and the outer wall of closing cap is fixed with the otic placode, and the otic placode is equipped with two sets of, and two sets of otic placodes are about closing cap symmetric distribution, and the closing cap cover overlaps behind the precipitation tank jar body top, and the otic placode overlap joint is on the connecting plate, and the connecting plate is fixed at the outer wall of the precipitation tank jar body, and otic placode and connecting plate pass through bolted connection.

Preferably, the top cover of feeding pipe is equipped with sealed lid, and the outer wall cover of feeding pipe is established and is fixed with the rubber circle, and the interlock groove has been seted up to sealed inner wall, and the interlock groove is the ring channel, and the sealing cover is established behind the top of feeding pipe, and the rubber circle is plugged into in the interlock groove for it is spacing to sealed lid anticreep.

Preferably, the separation frame is circular framework structure, and the cell body of separation frame is upwards, and a plurality of weeping slot holes have been seted up to the bottom surface of separation frame, and the bottom surface of separation frame has been seted up and has been assembled the groove, and it is equipped with a plurality ofly to assemble the groove, and a plurality of grooves of assembling are arranged along the bottom surface edge of separation frame and are distributed, have spliced the piece in the inside of assembling the groove, and spliced the piece is fixed at the top surface of support ring, and the support ring is annular platelike structure, and the outer ring face of support ring is fixed at the inner wall of precipitation tank jar body.

Preferably, the embedded groove is formed in the inner ring surface of the separation frame, the embedded groove is an annular groove, the inner ring caliber of the embedded groove is equal to the diameter of the groove body of the separation frame, the water permeable cloth bag sheet is plugged into the embedded groove, the water permeable cloth bag sheet is of a circular plate structure, the water permeable cloth bag sheet is tiled behind the top surface of the bottom plate of the separation frame, the edge of the water permeable cloth bag sheet is plugged into the embedded groove, the mounting groove is formed in the outer ring surface of the separation frame, the annular groove is formed in the mounting groove, the rubber scraping plate is fixedly sleeved in the mounting groove, the rubber scraping plate is of a circular ring plate structure with a concave section, and two parallel-distributed extension ring bodies of the rubber scraping plate are circular ring plates with isosceles trapezoid sections.

Preferably, the clamping ring is inserted in the groove body of the separation frame, the connecting ring is fixed at the top end of the clamping ring, the metal mesh plate is fixed at the inner ring opening of the connecting ring, the metal mesh plate is in a circular ring plate structure, the driving shaft of the servo motor penetrates through the inner ring opening of the metal mesh plate, the elastic hanging pieces are fixed on the outer ring surface of the connecting ring, the elastic hanging pieces are provided with two groups, the two groups of elastic hanging pieces are symmetrically distributed about the connecting ring, clamping strips are fixed on the surfaces of the elastic hanging pieces, the clamping strips are arc strips with right trapezoid cross sections, the connecting ring is lapped on the top surface of the separation frame, the clamping strips are inserted into clamping grooves, the clamping grooves are arc-shaped, the clamping grooves are formed in the outer ring surface of the separation frame, the clamping ring clamps the material poking plate at the moment, and the pull rings are fixed on the outer ring surface of the elastic hanging pieces.

Preferably, the shake material subassembly includes and dials flitch, expansion groove, elasticity linking piece, rubber clamp splice, movable block and stopper, dials the flitch and is equipped with two sets ofly, and two sets of dials the flitch and is about servo motor's drive shaft symmetric distribution, and dials the flitch and fix the drive shaft surface at servo motor, the expansion groove is offered and is being dialled the flitch and keep away from servo motor's drive shaft's one end, and the movable block activity is pegged graft in the expansion groove, and the movable block stretches into the inside one end of expansion groove and is fixed with elasticity linking piece, and elasticity linking piece is "U" font strip, and the one end of elasticity linking piece is fixed in the expansion groove, and is fixed with rubber clamp splice between elasticity linking piece and the expansion groove.

Preferably, the stopper is isosceles trapezoid piece, and the stopper is equipped with a plurality ofly, and a plurality of stoppers are equi-sized arrangements distribution along the inner ring face of separator, and the stopper is fixed on the inner wall of separator, and servo motor's drive shaft drives the driving plate and rotates after starting, and the movable block is when contact with the stopper, along with driving plate removal, the movable block is extruded into the expansion tank by the stopper in, and elasticity linking piece and rubber clamp splice are pressed deformation, and after driving plate removal to dislocation with the stopper, elasticity linking piece and rubber clamp splice rebound and reset, and the movable block is pushed by elasticity linking piece and rubber clamp splice and is beaten the inner wall of separator.

Preferably, the anti-sticking vibration material component comprises a storage groove, a containment frame, a baffle and steel balls, wherein the storage groove is a square groove, the height of the storage groove is smaller than that of the stirring plate, the containment frame is of a -shaped plate-shaped structure, a vertical plate of the containment frame is of a circular arc-shaped plate-shaped structure, the containment frame is fixed on the surface of the stirring plate, the containment frame seals the storage groove, a plurality of baffle plates are fixed on the surface of the storage groove and distributed in an up-down arrangement manner, the steel balls are arranged on the top surface of the baffle plates, and when the driving shaft of the servo motor realizes forward rotation and reverse rotation switching, the steel balls impact the stirring plate, the containment frame and the baffle plates in the storage groove, and sediment adhered on the surface of the stirring plate is shaken off by vibration.

Compared with the prior art, the invention has the beneficial effects that:

according to the heparin sodium precipitation tank with the separation device, precipitated heparin sodium is stored through the separation frame, so that the precipitated heparin sodium is prevented from being carried and discharged when the mixed filtrate is discharged through the discharge valve pipe, the shaking component is additionally arranged in the separation frame, and when the shaking component is driven to work by the servo motor, the separation frame vibrates, and moisture in the precipitated heparin sodium contained in the separation frame is shaken off; and after the connection structure of the sealing cover and the precipitation tank body is withdrawn, the traction sealing cover is used for feeding the separation frame through the driving shaft of the servo motor, the separation frame is used for supporting precipitated heparin sodium to be removed from the precipitation tank body, and the separation frame is used for scraping the heparin sodium adhered to the inner wall of the precipitation tank body into the separation frame, so that the residual waste of the heparin sodium is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the present invention in semi-section;

FIG. 3 is a schematic view of the connection structure of the cover and the separating frame of the present invention;

FIG. 4 is a schematic view of the stirring structure of the present invention;

FIG. 5 is a schematic view of a stirring section of the present invention;

FIG. 6 is a schematic view of the connection structure of the separator and the connecting ring of the present invention;

FIG. 7 is a schematic view of the internal structure of the separator of the present invention;

FIG. 8 is a schematic view of the connection structure of the elastic connecting piece and the movable block of the present invention;

FIG. 9 is a schematic view of the bottom structure of the separator of the present invention;

FIG. 10 is a schematic view of the connection structure of the connection ring and the metal mesh plate according to the present invention.

In the figure: the sedimentation tank body 1, the bracket 2, the sealing cover 3, the lug plate 4, the connecting plate 5, the bolt 6, the feeding pipe 7, the sealing cover 8, the rubber ring 9, the engagement groove 10, the discharge valve pipe 11, the separation frame 12, the weeping slot 13, the assembly groove 14, the assembly block 15, the support ring 16, the embedding groove 17, the water permeable cloth bag sheet 18, the mounting groove 19, the rubber scraper 20, the clamping groove 21, the clamping strip 22, the elastic hanging sheet 23, the connecting ring 24, the metal screen 25, the pressing ring 26, the servo motor 27, the stirring plate 28, the telescopic groove 29, the elastic connecting sheet 30, the rubber clamping block 31, the movable block 32, the stirring plate 33, the storage groove 34, the enclosure frame 35, the partition plate 36, the steel balls 37, the bearing seat 38 and the limiting block 39.

Detailed Description

In order to make the objects, technical solutions, and advantages of the present invention more apparent, the embodiments of the present invention will be further described in detail with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are some, but not all, embodiments of the present invention, are intended to be illustrative only and not limiting of the embodiments of the present invention, and that all other embodiments obtained by persons of ordinary skill in the art without making any inventive effort are within the scope of the present invention.

Examples

Referring to fig. 1 to 2, the present invention provides a technical solution: heparin sodium precipitation tank with separator, including precipitation tank jar body 1, the bottom surface of precipitation tank jar body 1 is fixed with a plurality of supports 2, and the top of precipitation tank jar body 1 is equipped with closing cap 3, and the surface of closing cap 3 is pegged graft and is fixed with and throws feed pipe 7, and the bottom surface of precipitation tank jar body 1 is pegged graft and is fixed with discharge valve pipe 11, its characterized in that: the sedimentation tank is characterized in that a separating frame 12 is arranged in the sedimentation tank body 1, a servo motor 27 is fixed on the bottom surface of the separating frame 12, a driving shaft of the servo motor 27 penetrates through the separating frame 12, a bearing seat 38 is sleeved at the top end of the driving shaft of the servo motor 27, the bearing seat 38 is fixed on the bottom surface of a top plate of the sealing cover 3, a shaking component is fixed on the surface of the driving shaft of the servo motor 27 and used for shaking off and separating liquid in sediment in the separating frame 12, the shaking component is positioned in the separating frame 12, a stirring plate 33 is fixed on the surface of the driving shaft of the servo motor 27, and an anti-sticking shaking component is arranged on the surface of the stirring plate 33 and used for shaking off the sediment adhered on the surface of the stirring plate 33; the precipitated heparin sodium is stored by the separating frame 12, so that the precipitated heparin sodium is prevented from being carried and discharged when the discharge valve pipe 11 discharges mixed filtrate, a shaking component is additionally arranged in the separating frame 12, and when the shaking component is driven to work by the servo motor 27, the separating frame 12 vibrates, and the water in the precipitated heparin sodium contained in the separating frame 12 is shaken off; and after the connection structure of the sealing cover 3 and the precipitation tank body 1 is withdrawn, the traction sealing cover 3 is used for feeding the separation frame 12 onto a body through a driving shaft of the servo motor 27, the separation frame 12 is used for supporting precipitated heparin sodium to be removed from the precipitation tank body 1, and the separation frame 12 is used for scraping the heparin sodium adhered to the inner wall of the precipitation tank body 1 into the separation frame 12, so that the residual waste of the heparin sodium is avoided.

Examples

On the basis of the first embodiment, in order to realize feeding into the precipitation tank body 1 and avoid alcohol volatilization, a sealing cover 3 is sleeved on the top end of the precipitation tank body 1, an ear plate 4 is fixed on the outer wall of the sealing cover 3, two groups of ear plates 4 are symmetrically distributed with respect to the sealing cover 3, the ear plates 4 are lapped on a connecting plate 5 after the sealing cover 3 is sleeved on the top of the precipitation tank body 1, the connecting plate 5 is fixed on the outer wall of the precipitation tank body 1, the ear plates 4 and the connecting plate 5 are connected through bolts 6, a sealing cover 8 is sleeved on the top end of a feeding pipe 7, a rubber ring 9 is sleeved on the outer wall of the feeding pipe 7, a meshing groove 10 is formed in the inner wall of the sealing cover 8, the sealing cover 8 is sleeved on the top end of the feeding pipe 7, and the rubber ring 9 is plugged into the meshing groove 10 for limiting the sealing cover 8 in a falling-preventing manner;

after buckling the sealing cover 3 at the top of the precipitation tank body 1, penetrating the bolts 6 through the lug plates 4 and the connecting plates 5, locking the bolts 6, firmly installing the sealing cover 3 at the top of the precipitation tank body 1, sealing the top opening of the precipitation tank body 1, then throwing the mixed solution of heparin components and alcohol into the precipitation tank body 1 from the feeding pipe 7 in sequence, and sleeving the sealing cover 8 above the feeding pipe 7, sealing the feeding pipe 7, and reducing evaporation of alcohol.

Examples

Referring to fig. 3, 6 and 9 and 10, in order to accommodate precipitated heparin sodium by the separation frame 12 on the basis of the second embodiment, the separation frame 12 is in a circular frame structure, a groove body of the separation frame 12 faces upwards, a plurality of weeping long holes 13 are formed in the bottom surface of the separation frame 12, assembling grooves 14 are formed in the bottom surface of the separation frame 12, the assembling grooves 14 are formed in a plurality, the assembling grooves 14 are distributed along the edge of the bottom surface of the separation frame 12, assembling blocks 15 are inserted into the assembling grooves 14, the assembling blocks 15 are fixed on the top surface of the supporting ring 16, the supporting ring 16 is in a ring-shaped plate structure, the outer ring surface of the supporting ring 16 is fixed on the inner wall of the precipitation tank body 1, an embedded groove 17 is formed in the inner ring surface of the separation frame 12, the embedded groove 17 is in a ring groove, the inner ring caliber of the embedded groove 17 is equal to the diameter of the groove body of the separation frame 12, a water permeable cloth bag piece 18 is plugged into the inside of the embedded groove 17, the water permeable cloth piece 18 is in a circular plate structure, after the water permeable cloth bag sheet 18 is tiled on the top surface of the bottom plate of the separation frame 12, the edge of the water permeable cloth bag sheet 18 is plugged into the embedded groove 17, the outer ring surface of the separation frame 12 is provided with a mounting groove 19, the mounting groove 19 is an annular groove, the inside of the mounting groove 19 is sleeved and fixed with a rubber scraper 20, the rubber scraper 20 is of a circular ring plate structure with a concave cross section, two parallel-distributed extension ring bodies of the rubber scraper 20 are all circular ring plates with isosceles trapezoid cross sections, a compression ring 26 is inserted in the groove body of the separation frame 12, the top end of the compression ring 26 is fixed with a connecting ring 24, the inner ring opening of the connecting ring 24 is fixed with a metal mesh plate 25, the metal mesh plate 25 is of a circular ring plate structure, a driving shaft of a servo motor 27 penetrates through the inner ring opening of the metal mesh plate 25, the outer ring surface of the connecting ring 24 is fixed with elastic hanging pieces 23, the elastic hanging pieces 23 are provided with two groups, the two groups of elastic hanging pieces 23 are symmetrically distributed about the connecting ring 24, the surface of the elastic hanging piece 23 is fixedly provided with a clamping strip 22, the clamping strip 22 is an arc strip with a right trapezoid cross section, when the connecting ring 24 is lapped on the top surface of the separating frame 12, the clamping strip 22 is inserted into the clamping groove 21, the clamping groove 21 is arc-shaped, the clamping groove 21 is formed in the outer ring surface of the separating frame 12, the pressing ring 26 clamps the stirring plate 28 at the moment, and the outer ring surface of the elastic hanging piece 23 is fixedly provided with a pull ring.

The servo motor 27 is started to drive the stirring plate 33 to rotate, the mixed solution of heparin components and alcohol are mixed, stand for precipitation of heparin sodium, a small amount of liquid precipitate below the separation frame 12 is located on the bottom plate of the precipitation tank body 1, a large amount of heparin sodium precipitate is contained inside the separation frame 12, the permeable cloth bag sheet 18 is paved inside the separation frame 12, the precipitate is prevented from being scattered downwards, after the edge of the permeable cloth bag sheet 18 is plugged into the embedded groove 17, the permeable cloth bag sheet 18 is clamped by the compression ring 26, when the permeable cloth bag sheet 18 needs to be replaced, the elastic hanging sheet 23 is pulled to deform, the elastic hanging sheet 23 drives the clamping strip 22 to be pulled away from the clamping groove 21, the connecting ring 24 is lifted from the upper side of the separation frame 12, the splicing groove 14 drives the compression ring 26 to be pulled away from the separation frame 12, the permeable cloth bag sheet 18 is taken out for replacement, a gap is formed in the annular plate of the permeable cloth bag sheet 18, the permeable cloth bag sheet 18 is conveniently taken out of the shaft body bypassing the servo motor 27 at the time, after the permeable cloth bag sheet 18 is plugged into the separation frame 12, the permeable cloth bag sheet 18 is clamped in the replacement, the clamping permeable cloth sheet 14 is required to be replaced, after the clamping strip 22 is clamped on the clamping strip 22 is required to be pulled out of the separation frame 12, and the clamping strip 14 is prevented from being separated from being spliced and separated from the clamping strip 12 from the clamping groove 12.

Examples

Referring to fig. 7 and 8, in order to shake off the heparin sodium doped liquid contained in the separating frame 12, on the basis of the third embodiment, the shake-off assembly includes a stirring plate 28, a telescopic slot 29, an elastic connecting piece 30, a rubber clamping block 31, a movable block 32 and a limiting block 39, wherein the stirring plate 28 is provided with two groups, the stirring plate 28 of the two groups is symmetrically distributed about the driving shaft of the servo motor 27, the stirring plate 28 is fixed on the surface of the driving shaft of the servo motor 27, the telescopic slot 29 is arranged at one end of the stirring plate 28 far away from the driving shaft of the servo motor 27, the movable block 32 is movably inserted into the telescopic slot 29, one end of the movable block 32 extending into the telescopic slot 29 is fixedly provided with the elastic connecting piece 30, the elastic connecting piece 30 is in a U-shaped strip, one end of the elastic connecting piece 30 is fixed in the telescopic slot 29, rubber clamping blocks 31 are fixed between the elastic connecting pieces 30 and the telescopic grooves 29, the limiting blocks 39 are isosceles trapezoid blocks, the limiting blocks 39 are arranged in a plurality, the limiting blocks 39 are distributed in an equal-size mode along the inner annular surface of the separating frame 12, the limiting blocks 39 are fixed on the inner wall of the separating frame 12, the driving shaft of the servo motor 27 is started to drive the stirring plate 28 to rotate, when the movable blocks 32 are contacted with the limiting blocks 39, the movable blocks 32 are extruded into the telescopic grooves 29 by the limiting blocks 39 along with the movement of the stirring plate 28, the elastic connecting pieces 30 and the rubber clamping blocks 31 are extruded and deformed, and when the stirring plate 28 moves to be misplaced with the limiting blocks 39, the elastic connecting pieces 30 and the rubber clamping blocks 31 rebound and reset, and the movable blocks 32 are pushed by the elastic connecting pieces 30 and the rubber clamping blocks 31 to strike the inner wall of the separating frame 12;

after the precipitated heparin sodium and liquid on the bottom plate of the precipitation tank body 1 are discharged, starting a servo motor 27 to drive a stirring plate 28 to rotate, in the process that the movable block 32 is sequentially staggered with a plurality of limiting blocks 39, the movable block 32 is elastically supported by an elastic connecting piece 30 and a rubber clamping piece 31, the inner wall of the precipitation tank body 12 is repeatedly knocked, the liquid in the precipitation tank body 12 is vibrated downwards by vibration generated by knocking, the liquid which is vibrated downwards is discharged from a discharge valve pipe 11, the precipitated heparin sodium is contained in the separation tank body 12, along with the increase of the precipitated heparin sodium, the precipitated heparin sodium is also placed on an assembling block 15, when the precipitated heparin sodium is required to be taken out, firstly loosening a bolt 6, and after the ear plate 4 and a connecting plate 5 are not fixed any more, the sealing cover 3 is pulled upwards by a shaft body of the servo motor 27, in the process, the rubber scraping plate 20 is arranged along the inner wall of the precipitation tank body 1, the rubber scraping sodium adhered to the inner wall of the precipitation tank body 1, the scraped sodium is contained in the precipitation tank body 1, the precipitated heparin sodium is contained in the separation tank body 12, the precipitated heparin sodium is pulled out of the precipitation tank body 12 from the precipitation tank body 12, and the precipitated heparin sodium is taken out of the precipitation tank body 12 from the precipitation tank body 12, and is pulled out of the heparin sodium is pulled out from the precipitation tank body 12, and is pulled out from the precipitation tank body 12 until the heparin sodium is separated from the precipitation tank body 1, and is taken out from the heparin tank body 21, and is taken out from the heparin tank body from the precipitation tank body, and is finally, and is taken out from the heparin tank side from the heparin tank body and is placed;

in order to shake off the sediment adhered to the surface of the stirring plate 33, the anti-sticking vibration material component comprises a storage groove 34, a containment frame 35, a partition plate 36 and steel balls 37, wherein the storage groove 34 is a square groove, the height of the storage groove 34 is smaller than that of the stirring plate 33, the containment frame 35 is of a -shaped plate-shaped structure, a vertical plate of the containment frame 35 is of a circular arc-shaped plate-shaped structure, the containment frame 35 is fixed on the surface of the stirring plate 33, the containment frame 35 seals the storage groove 34, a plurality of partition plates 36 are fixed on the surface of the storage groove 34, the partition plates 36 are distributed in an up-down arrangement manner, a plurality of steel balls 37 are arranged on the top surface of the partition plates 36, and when the driving shaft of the servo motor 27 realizes forward rotation and reverse rotation, the steel balls 37 impact the stirring plate 33, the containment frame 35 and the partition plate 36 in the storage groove 34, and the sediment adhered to the surface of the stirring plate 33 is shaken off;

after heparin sodium above the separation frame 12 is taken out, pushing the separation frame 12 into the precipitation tank body 1, after the sealing cover 3 is overlapped on the top of the precipitation tank body 1 again, starting the servo motor 27 again to drive the stirring plate 33 to rotate, and switching the servo motor 27 back and forth when the servo motor 27 is programmed, in the process, the steel balls 37 impact the vibration generated by the inner wall of the storage groove 34, shaking off heparin sodium materials adhered to the surface of the stirring plate 33 into the separation frame 12, then extracting the separation frame 12 from the precipitation tank body 1 again, and taking out heparin sodium inside the separation frame 12.

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

Claims (4)

1. Heparin sodium precipitation tank with separator, including precipitation tank jar body (1), the bottom surface of precipitation tank jar body (1) is fixed with a plurality of supports (2), and the top of precipitation tank jar body (1) is equipped with closing cap (3), and the surface of closing cap (3) is pegged graft and is fixed with and throws feed pipe (7), and the bottom surface of precipitation tank jar body (1) is pegged graft and is fixed with discharge valve pipe (11), its characterized in that: the sedimentation tank is characterized in that a separation frame (12) is arranged in the sedimentation tank body (1), a servo motor (27) is fixed on the bottom surface of the separation frame (12), a driving shaft of the servo motor (27) penetrates through the separation frame (12), a bearing seat (38) is sleeved at the top end of the driving shaft of the servo motor (27), the bearing seat (38) is fixed on the bottom surface of a top plate of the sealing cover (3), a shaking component is fixed on the surface of the driving shaft of the servo motor (27) and used for shaking off and separating liquid in sediments in the separation frame (12), the shaking component is arranged in the separation frame (12), a stirring plate (33) is fixed on the surface of the driving shaft of the servo motor (27), and an anti-sticking shaking component is arranged on the surface of the stirring plate (33) and used for shaking off the sediments adhered to the surface of the stirring plate (33);

the separating frame (12) is of a circular frame body structure, the groove body of the separating frame (12) faces upwards, a plurality of liquid leakage long holes (13) are formed in the bottom surface of the separating frame (12), a plurality of assembling grooves (14) are formed in the bottom surface of the separating frame (12), the assembling grooves (14) are distributed along the bottom surface edge of the separating frame (12), assembling blocks (15) are inserted into the assembling grooves (14), the assembling blocks (15) are fixed on the top surface of the supporting ring (16), the supporting ring (16) is of an annular plate structure, the outer annular surface of the supporting ring (16) is fixed on the inner wall of the sedimentation tank body (1), an embedded groove (17) is formed in the inner annular surface of the separating frame (12), the inner annular diameter of the embedded groove (17) is equal to the diameter of the groove body of the separating frame (12), cloth bag sheets (18) are plugged into the inner parts of the embedded groove (17), the cloth bag sheets (18) are of a circular plate structure, the cloth bag sheets (18) are tiled on the top surface of the separating frame (12), the cloth bag sheets (18) are arranged on the bottom surface of the separating frame (12), the inner annular groove (19) is formed in the inner annular groove, the inner annular groove (19) is formed in the groove, the rubber groove (19) is formed in the inner annular groove (19), the rubber scraping plate (20) is of a circular ring plate structure with a concave cross section, and two parallel-distributed extension ring bodies of the rubber scraping plate (20) are circular ring plates with isosceles trapezoid cross sections; a pressing ring (26) is inserted into a groove body of the separating frame (12), a connecting ring (24) is fixed at the top end of the pressing ring (26), a metal screen plate (25) is fixed at the inner ring opening of the connecting ring (24), the metal screen plate (25) is in a circular ring plate structure, a driving shaft of a servo motor (27) penetrates through the inner ring opening of the metal screen plate (25), elastic hanging pieces (23) are fixed on the outer ring surface of the connecting ring (24), two groups of elastic hanging pieces (23) are symmetrically distributed relative to the connecting ring (24), clamping strips (22) are fixed on the surface of the elastic hanging pieces (23), the clamping strips (22) are arc strips with right trapezoid cross sections, when the connecting ring (24) is lapped on the top surface of the separating frame (12), the clamping strips (22) are inserted into clamping grooves (21), the clamping grooves (21) are in a circular arc shape, the clamping grooves (21) are formed in the outer ring surface of the separating frame (12), and the pressing ring (26) clamps a stirring plate (28) at the moment, and the outer ring surface of the elastic hanging pieces (23) is fixed with pull rings;

the material shaking assembly comprises a material stirring plate (28), a telescopic groove (29), an elastic connecting piece (30), a rubber clamping block (31), a movable block (32) and a limiting block (39), wherein the material stirring plate (28) is provided with two groups, the two groups of material stirring plates (28) are symmetrically distributed about a driving shaft of a servo motor (27), the material stirring plates (28) are fixed on the surface of the driving shaft of the servo motor (27), the telescopic groove (29) is formed in one end, far away from the driving shaft of the servo motor (27), of the material stirring plate (28), the movable block (32) is movably inserted into the telescopic groove (29), one end, extending into the telescopic groove (29), of the movable block (32) is fixedly provided with the elastic connecting piece (30), the elastic connecting piece (30) is in a U-shaped strip, one end of the elastic connecting piece (30) is fixedly arranged in the telescopic groove (29), and the rubber clamping block (31) is fixedly arranged between the elastic connecting piece (30) and the telescopic groove (29). Stopper (39) are isosceles trapezoid piece, stopper (39) are equipped with a plurality ofly, a plurality of stoppers (39) are equi-sized and arranged along the interior ring face equidistance of separator frame (12) and distribute, and stopper (39) are fixed on the inner wall of separator frame (12), drive stirring board (28) rotate after the drive shaft of servo motor (27) starts, when movable block (32) and stopper (39) contact, along with stirring board (28) removal, movable block (32) are squeezed into expansion groove (29) by stopper (39), elastic linking piece (30) and rubber clamp splice (31) are pressed deformation, after stirring board (28) remove to misplacement with stopper (39), elastic linking piece (30) and rubber clamp splice (31) rebound, movable block (32) are by elastic linking piece (30) and rubber clamp splice (31) top and strike the inner wall of separator frame (12).

2. A heparin sodium precipitation tank with a separation device according to claim 1, characterized in that: the utility model discloses a sedimentation tank, including sedimentation tank jar body (1), closing cap (3) cover is established on the top of the sedimentation tank jar body (1), and the outer wall of closing cap (3) is fixed with otic placode (4), and otic placode (4) are equipped with two sets of, and two sets of otic placode (4) are about closing cap (3) symmetric distribution, and closing cap (3) cover is behind sedimentation tank jar body (1) top, and otic placode (4) overlap joint is on connecting plate (5), and connecting plate (5) are fixed at the outer wall of sedimentation tank jar body (1), and otic placode (4) and connecting plate (5) are connected through bolt (6).

3. A heparin sodium precipitation tank with a separation device according to claim 1, characterized in that: the top cover of throwing material pipe (7) is equipped with sealed lid (8), and the outer wall cover of throwing material pipe (7) is established and is fixed with rubber circle (9), and interlock groove (10) have been seted up to the inner wall of sealed lid (8), and interlock groove (10) are the ring channel, and behind the top of throwing material pipe (7) was established to sealed lid (8) cover, in rubber circle (9) were plugged into interlock groove (10) for it is spacing to sealed lid (8) anticreep.

4. A heparin sodium precipitation tank with a separation device according to claim 1, characterized in that: antiseized material subassembly that shakes includes storage tank (34), enclosure frame (35), baffle (36) and steel ball (37), storage tank (34) are square groove, the height of storage tank (34) is less than the height of stirring board (33), enclosure frame (35) are "" font platy structure, the riser of enclosure frame (35) is convex platy structure, enclosure frame (35) are fixed in the surface of stirring board (33), enclosure frame (35) keep off storage tank (34), the surface of storage tank (34) is fixed with a plurality of baffles (36), a plurality of baffles (36) are upper and lower range and distribute, and the top surface of baffle (36) is put a plurality of steel balls (37), when the drive shaft of servo motor (27) realizes corotation and reversal switching, steel ball (37) bump stirring board (33) inside storage tank (34), enclosure frame (35) and baffle (36), vibrations shake the precipitate that stirs on stirring board (33) surface.