阅读说明：本技术 一种生物工程用的过滤分离设备 (Filtration and separation equipment for bioengineering ) 是由 曾玉婷 于 2019-10-12 设计创作，主要内容包括：本发明公开了一种生物工程用的过滤分离设备,其结构包括罐体、管体、分离器,罐体设有排放管、电机,管体设有仪表,分离器设有盖体、残渣去除疏通器,本发明的有益效果是：能够通过液压器带动刮除器在分离器内壁上上进行上下刮动,再通过抽除器与吸口的相互配合,将分离器内壁的残渣通过疏通连接头进入吸管中,在通过疏通连接头时通过疏通连接头上的伸缩杆和推动器相互配合,从而推动推动器在吸管内壁进行来回疏通,避免吸管被残渣堵塞,通过抽除器和刮除器的相互配合,使得分离器不需要进行另外清理,避免了清理的麻烦,同时也通过疏通连接头避免了通过吸管进行抽吸清理时容易出现的堵塞状况。(The invention discloses a filtering and separating device for bioengineering, which structurally comprises a tank body, a pipe body and a separator, wherein the tank body is provided with a discharge pipe and a motor, the pipe body is provided with an instrument, the separator is provided with a cover body and a residue removing dredger, and the filtering and separating device has the beneficial effects that: can drive the scaler through the hydraulic press and scrape about on the separator inner wall, rethread extractor and suction inlet mutually support, get into the straw through the mediation connector with the residue of separator inner wall, mutually support through telescopic link and the impeller on the mediation connector when through the mediation connector, thereby promote the impeller and make a round trip to dredge at the straw inner wall, avoid the straw to be blockked up by the residue, through the mutually supporting of extractor and scaler, make the separator need not clear up in addition, the trouble of clearance has been avoided, the jam situation that appears easily when also having avoided sucking the clearance through the straw simultaneously through the mediation connector.)

1. The utility model provides a filtration splitter that bioengineering used, its structure includes jar body (1), body (2), separator (3), jar body (1) welds in separator (3) bottom, body (2) are through threaded connection on jar body (1) and separator (3) surface, its characterized in that:

The tank body (1) is provided with a discharge pipe (10) and a motor (11), the discharge pipe (10) is connected between the tank body (1) and the motor (11) through threaded engagement, and the motor (11) is connected to the outside of the tank body (1) through a bolt;

The pipe body (2) is provided with an instrument (20), and the instrument (20) is connected to the pipe body (2) through a bolt;

The separator (3) is provided with a cover body (30) and a residue removing dredger (31), the cover body (30) is welded to the top of the separator (3), and the residue removing dredger (31) is installed on the cover body (30).

2. The filtration and separation apparatus for bioengineering according to claim 1, wherein: the residue removing dredger (31) is provided with a drawer (310) and a scraper (311), the drawer (310) is connected to the top of the cover body (30) through bolts, and the scraper (311) is connected below the drawer (310) through bolts.

3. The filtration and separation apparatus for bioengineering according to claim 2, wherein: the extractor (310) is provided with a hydraulic press (A) and a hydraulic push rod (B), the hydraulic press (A) is connected to the bottom of the extractor (310) through a bolt, and the hydraulic push rod (B) is connected to the lower portion of the hydraulic press (A) through over-fit.

4. The filtration and separation apparatus for bioengineering according to claim 2, wherein: scraper (311) is equipped with straw (C), scraper blade (D), connecting rod (E), straw (C) is connected between scraper blade (D) and extractor (310), scraper blade (D) welds on connecting rod (E), connecting rod (E) welds between hydraulic push rod (B) and scraper blade (D).

5. The filtration and separation apparatus for bioengineering according to claim 4, wherein: scraper blade (D) is equipped with suction inlet (D1), mediation connector (D2), suction inlet (D1) evenly inlays and locates scraper blade (D) below, mediation connector (D2) evenly welds in scraper blade (D) upper surface.

6. the filtration and separation apparatus for bioengineering according to claim 5, wherein: mediation connector (D2) is equipped with controller (a), telescopic link (b), impeller (c), controller (a) inlays and locates on mediation connector (D2), telescopic link (b) inlays and locates on controller (a), impeller (c) inlays and locates telescopic link (b) top.

7. The filtration and separation apparatus for bioengineering according to claim 6, wherein: the controller (a) is provided with a through hole (a 1), and the through hole (a 1) is embedded in the controller (a).

Technical Field

The invention relates to the field of biological filtration, in particular to a filtering and separating device for biological engineering.

Background

when the filtration and separation links are involved in bioengineering, natural precipitation is a common filtration and separation mode and has a good effect, but because the low flow rate limits the circulating flow, the culture density and the culture efficiency can be reduced when the protein is separated and filtered in culture, and therefore, a filtration separator is needed to accelerate the filtration and improve the quality of the filtration and separation.

Aiming at the current filtration and separation equipment for bioengineering, a relative scheme is established for the following problems:

When utilizing the filtering separator to carry out protein filtering separation, because can be because the production of bubble on the filter inner wall to the impurity adhesion that adulterates in the drive bubble is on the filter inner wall, therefore makes the filter need regularly clear up, nevertheless because large-scale separation filter is bulky, than higher, so be difficult to the clearance, causes the straw simultaneously through the mode of suction clearance easily and blocks up when the clearance, thereby influences the efficiency of clearance.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a filtering and separating device for bioengineering.

The invention is realized by adopting the following technical scheme: a filtering and separating device for bioengineering structurally comprises a tank body, a pipe body and a separator, wherein the tank body is welded at the bottom of the separator, the pipe body is connected to the outer surfaces of the tank body and the separator through threads, the tank body is provided with a discharge pipe and a motor, the discharge pipe is connected between the tank body and the motor through thread meshing, and the motor is connected to the outside of the tank body through bolts; the pipe body is provided with an instrument, and the instrument is connected to the pipe body through a bolt; the separator is equipped with lid, residue and gets rid of the dredge, the lid welds in the separator top, the dredge is got rid of to the residue is installed on the lid.

Preferably, the residue removing dredger is provided with a drawer and a scraper, the drawer is connected to the top of the cover body through a bolt, the scraper is connected to the lower portion of the drawer through a bolt, the drawer is made of metal, and the scraper is made of metal.

As an optimization, the extractor is provided with a hydraulic press and a hydraulic push rod, the hydraulic press is connected to the bottom of the extractor through a bolt, the hydraulic push rod is connected to the lower portion of the hydraulic press through excessive matching, the hydraulic push rod is made of metal materials, and the hydraulic push rod is of a circular rod-shaped structure.

As an optimization, the scraper is provided with a suction pipe, scraping plates and connecting rods, the suction pipe is connected between the scraping plates and the scraper, the scraping plates are welded on the connecting rods, the connecting rods are welded between the hydraulic push rod and the scraping plates, the suction pipe is 9, the scraping plates are of annular plate-shaped structures, the scraping plates are made of metal materials, and the connecting rods are 3.

As the optimization, the scraper blade is equipped with suction inlet, mediation connector, the suction inlet evenly inlays and locates the scraper blade below, the mediation connector evenly welds in the scraper blade upper surface, the suction inlet is arc-shaped strip structure, the suction inlet is 9, the mediation connector is the metal material.

as the optimization, the mediation connector is equipped with controller, telescopic link, impeller, the controller inlays and locates on the mediation connector, the telescopic link inlays and locates on the controller, the impeller inlays and locates the telescopic link top, the controller is circular structure, the telescopic link is the metal material, the telescopic link is circular shaft-like structure, the telescopic link is three-section extending structure, the impeller is the metal material, the impeller is oval structure.

As optimization, the controller is equipped with the through-hole, the through-hole inlays to be located on the controller, the through-hole is 5, the through-hole is circular structure, the through-hole is symmetric distribution on the controller.

Advantageous effects

The invention relates to a filtration and separation device for bioengineering, which is characterized in that when in work:

the residue removing dredger is provided with the extractor and the scraper, the scraper is pushed by the extractor to scrape the inner wall of the separator up and down, the residue on the inner wall of the separator is adsorbed by the scraper, and then the residue is conveyed into the extractor to be cleaned;

The extractor is provided with the hydraulic device and the hydraulic push rod, and when the hydraulic device on the extractor pushes the hydraulic push rod to extend, the extractor is driven to scrape the inner wall of the separator;

The scraper is provided with the suction pipe, the scraping plate and the connecting rod, when the scraper scrapes the inner wall of the separator, the suction port on the scraping plate is driven to be attached to the inner wall of the separator for adsorption through the powerful suction of the extractor, residues are led into the suction pipe through the dredging connector and then sucked into the extractor for cleaning;

The scraper is provided with the suction port and the dredging connector, when the scraper is used for scraping up and down, the suction port is driven to suck residues on the inner wall of the separator, when the residues in the suction port pass through the dredging connector, the telescopic rod is pushed to extend through the controller on the dredging connector, and when the telescopic rod extends, the pusher is pushed to open, so that the pusher is driven to dredge the inner wall of the suction pipe back and forth, and the suction pipe is prevented from being blocked;

The dredging connector is provided with the controller, the telescopic rod and the pusher, when the scraper blade scrapes up and down, the suction port is driven to suck residues on the inner wall of the separator, when the residues of the suction port pass through the dredging connector, the telescopic rod is pushed by the controller on the dredging connector to extend, and when the telescopic rod extends, the pusher is pushed to open, so that the pusher is driven to dredge back and forth on the inner wall of the suction pipe, and the suction pipe is prevented from being blocked;

Through being equipped with a controller, the controller is equipped with the through-hole, and when the residue got into the mediation connector, through the through-hole on the controller makes the residue can circulate, avoids the residue jam on the mediation connector.

Compared with the prior art, the invention has the beneficial effects that: can drive the scaler through the hydraulic press and scrape about on the separator inner wall, rethread extractor and suction inlet mutually support, get into the straw through the mediation connector with the residue of separator inner wall, mutually support through telescopic link and the impeller on the mediation connector when through the mediation connector, thereby promote the impeller and make a round trip to dredge at the straw inner wall, avoid the straw to be blockked up by the residue, through the mutually supporting of extractor and scaler, make the separator need not clear up in addition, the trouble of clearance has been avoided, the jam situation that appears easily when also having avoided sucking the clearance through the straw simultaneously through the mediation connector.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a filtration separation apparatus for bioengineering according to the present invention.

Fig. 2 is a schematic structural view of the scraper of the present invention in a static state.

Fig. 3 is a schematic structural view of the scraper of the present invention in a scraping state.

Fig. 4 is a schematic top view of the scraper of the present invention.

fig. 5 is a structural schematic diagram of the dredging connector in a static state.

fig. 6 is a structural schematic diagram of the dredging connector of the invention in a dredging state.

Fig. 7 is a schematic top view of the controller of the present invention.

in the figure: the device comprises a tank body 1, a pipe body 2, a separator 3, a discharge pipe 10, a motor 11, a meter 20, a cover body 30, a residue removing dredger 31, a extractor 310, a scraper 311, a hydraulic press A, a hydraulic push rod B, a suction pipe C, a scraper D, a connecting rod E, a suction port D1, a dredging connector D2, a controller a, an expansion rod B, a pusher C and a through hole a 1.

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. 1-7, the present invention provides a technical solution of a filtration and separation apparatus for bioengineering: the structure of the separator comprises a tank body 1, a pipe body 2 and a separator 3, wherein the tank body 1 is welded at the bottom of the separator 3, the pipe body 2 is connected to the outer surfaces of the tank body 1 and the separator 3 through threads, the tank body 1 is provided with a discharge pipe 10 and a motor 11, the discharge pipe 10 is connected between the tank body 1 and the motor 11 through thread engagement, and the motor 11 is connected to the outside of the tank body 1 through bolts; the pipe body 2 is provided with an instrument 20, and the instrument 20 is connected to the pipe body 2 through a bolt; the separator 3 is provided with a cover body 30 and a residue removing dredger 31, the cover body 30 is welded on the top of the separator 3, the residue removing dredger 31 is installed on the cover body 30, the residue removing dredger 31 is provided with a drawer 310 and a scraper 311, the drawer 310 is connected to the top of the cover body 30 through a bolt, the scraper 311 is connected below the drawer 310 through a bolt, the drawer 310 is used for drawing residues sucked on the scraper 311, the scraper 311 is used for scraping the residues on the inner wall of the separator 3, the drawer 310 is provided with a hydraulic device A and a hydraulic push rod B, the hydraulic device A is connected to the bottom of the drawer 310 through a bolt, the hydraulic push rod B is connected below the hydraulic device A through an over-fit manner, the hydraulic device A is used for pushing the hydraulic push rod B to extend and retract up and down, the hydraulic push rod B is used for driving the scraper 311 to scrape up and down on the inner wall of the separator 3, scraper 311 is equipped with straw C, scraper blade D, connecting rod E, straw C is connected between scraper blade D and extractor 310, scraper blade D welds on connecting rod E, connecting rod E welds between hydraulic push rod B and scraper blade D, straw C is arranged in leading-in extractor 310 with the absorptive residue of suction inlet D1, scraper blade D is used for driving suction inlet D1 and reciprocates on separator 3 inner wall, connecting rod E is used for connecting scraper blade D, scraper blade D is equipped with suction inlet D1, mediation connector D2, suction inlet D1 evenly inlays and locates scraper blade D below, mediation connector D2 evenly welds in scraper blade D upper surface, suction inlet D1 is used for adsorbing the residue of separator 3 inner wall away, mediation connector D2 is used for preventing residue suction pipe C, mediation connector D2 is equipped with controller a, telescopic link B, impeller C, controller an inlays and locates on mediation connector D2, telescopic link b inlays and locates on controller a, impeller C inlays and locates telescopic link b top, controller a is used for promoting telescopic link b and stretches out and draws back, telescopic link b is used for promoting impeller C and scrapes at straw C inner wall, impeller C is used for promoting the residue of straw C inner wall and dredges, controller a is equipped with through-hole a1, through-hole a1 inlays and locates on controller a, through-hole a1 is used for supplementary straw C can not block up on mediation connector D2 when carrying out the residue and leading and send.

when in use, the extractor 310 pushes the scraper 311 to scrape the inner wall of the separator 3 up and down, the scraper 211 adsorbs the residue on the inner wall of the separator 3, and the residue is conveyed into the extractor 310 to be cleaned; when the hydraulic device a on the extractor 310 pushes the hydraulic push rod B to extend, the scraper 311 is driven to scrape off the inner wall of the separator 3; when the scraper 311 scrapes the inner wall of the separator 3, the suction port D1 on the scraper D is driven to cling to the inner wall of the separator 3 for adsorption through the strong suction of the extractor 310, and the residue is led into the suction pipe C through the dredging connector D2 and then sucked into the extractor 310 for cleaning; when the scraper plate D scrapes up and down, the suction port D1 is driven to suck residues on the inner wall of the separator 3, when the residues in the suction port D1 pass through the dredging connector D2, the telescopic rod b is pushed by the controller a on the dredging connector D2 to extend, and the pusher C is pushed to open when the telescopic rod b extends, so that the pusher C is driven to dredge back and forth on the inner wall of the straw C, and the straw C is prevented from being blocked; when the residue got into mediation connector D2, make the residue can circulate through-hole a1 on the controller a, avoid the residue to block up on mediation connector D2.

Compared with the prior art, the invention has the technical progress that:

Can drive the scaler through the hydraulic press and scrape about on the separator inner wall, rethread extractor and suction inlet mutually support, get into the straw through the mediation connector with the residue of separator inner wall, mutually support through telescopic link and the impeller on the mediation connector when through the mediation connector, thereby promote the impeller and make a round trip to dredge at the straw inner wall, avoid the straw to be blockked up by the residue, through the mutually supporting of extractor and scaler, make the separator need not clear up in addition, the trouble of clearance has been avoided, the jam situation that appears easily when also having avoided sucking the clearance through the straw simultaneously through the mediation connector.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.