CN212152290U

CN212152290U - Stem cell filtering separator

Info

Publication number: CN212152290U
Application number: CN202020151640.3U
Authority: CN
Inventors: 王继明; 高用慧; 王博迪; 王嘉毅
Original assignee: Tianjin Saierkang Biomedicine Technology Co ltd
Current assignee: Tianjin Saierkang Biomedicine Technology Co ltd
Priority date: 2020-02-05
Filing date: 2020-02-05
Publication date: 2020-12-15
Anticipated expiration: 2030-02-05

Abstract

The utility model provides a stem cell filtering separator, which comprises a first connecting hose, a delivery pump, a miniature sucker, a storage tank, a collection tank and a support rod, the upper end of the annular side surface of the supporting rod is embedded and fixed with a miniature sucker which is respectively fixed at the lower ends of the storage tank and the collection tank in an absorption way, the left lower part of the storage tank is fixedly connected with a delivery pump through a flange plate, the left end of the delivery pump is communicated with the left upper part of the charging barrel through a first connecting hose, the storage tank is arranged on the left side of the collection tank, the design is convenient for collecting the mixed blood through the storage tank and collecting the blood plasma, the stem cells and the red blood cells through the collection tank respectively, then the pair of mixed blood flows back through the delivery pump and the connecting hose and is separated again, so that the collection range is enlarged, the swing through the supporting rod is facilitated, and the blood coagulation is avoided.

Description

Stem cell filtering separator

Technical Field

The utility model relates to a stem cell filtering separator belongs to stem cell splitter field.

Background

When the existing umbilical cord blood is separated, the separation is usually carried out only once, the separation effect is poor, great waste is caused, and the blood is not swung, so that the blood is easy to coagulate, and the use effect is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a stem cell filtering separator to solve the problem that proposes in the above-mentioned background art, the utility model discloses convenient to use, the function of multiple separation has been realized in the operation of being convenient for, and is convenient for swing and collects.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a stem cell filtering separator comprises a bottom plate, the right part of the upper end surface of the bottom plate is fixedly connected with a support frame through a bolt, the left end of the support frame is fixedly connected with a material cylinder through a flange plate, the annular side surface of the support frame is in sliding connection with a sliding ring, the left end of the sliding ring is fixedly welded with a fixed rod, the left end of the fixed rod is fixedly connected with a separator through a flange plate, the upper end of the separator is connected with a discharge pipe through a pipeline, the discharge pipe is fixed on the lower end surface of the material cylinder, the lower end of the separator is connected with a swing mechanism, the swing mechanism is placed on the upper end of the bottom plate, the swing mechanism comprises a first connecting hose, a delivery pump, a miniature sucker, a storage tank, a collection tank and a support rod, the miniature sucker is embedded and fixed on the upper, storage jar left side below is through ring flange and delivery pump fixed connection, the delivery pump left end is linked together through coupling hose one and feed cylinder upper left side, the storage jar is placed in the collecting vessel left side.

Furthermore, both ends all process the spacing groove about the bracing piece, the spacing groove of bracing piece left end passes through the bearing and rotates with L type branch to be connected, L type branch passes through the bolt fastening at the bottom plate upper end.

Furthermore, an output shaft at the left end of the motor is placed in a limiting groove at the right end of the supporting rod, the right part of the annular side face of the supporting rod is rotatably connected with a fastening bolt through threads, and the lower end of the fastening bolt penetrates through the supporting rod and is in contact with the annular side face of the output shaft at the left side of the motor.

Furthermore, the lower part in the charging barrel fixes a filter screen through a bolt, and the lower right side of the annular side surface of the discharging pipe is connected with a first switch valve.

Further, the top of the charging barrel is provided with a first motor, the output end of the first motor is fixedly connected with the stirring shaft, the bottom of the stirring shaft is provided with a second motor, the output end of the second motor is fixedly connected with a second rotating shaft, the second rotating shaft is fixedly connected with a plurality of second conical gears, the first conical gears are meshed with the first conical gears, the first conical gears are fixedly connected with the first rotating shaft, and the first rotating shaft is provided with a plurality of stirring blades.

Further, a protective shell is arranged outside the motor.

Furthermore, the included angle between the stirring blade and the first rotating shaft is 30-90 degrees.

Further, the motor III, the motor I and the motor II are servo motors with positive and negative rotation functions.

Furthermore, four drain pipes are fixed to the lower end of the separator through a flange plate, the lower ends of the drain pipes are connected with a storage tank and three collection tanks through two connecting hoses respectively, a second switch valve is connected to the drain pipes, and the right portion of the upper end face of the separator is fixedly connected with a feeding pipe through the flange plate.

Furthermore, a sliding groove is formed in the right end of the annular side face of the support frame, the right end of the annular side face of the sliding ring is connected with a locking bolt through threads, and the left end of the locking bolt penetrates through the sliding ring and extends into the sliding groove.

The utility model has the advantages that: the utility model discloses a stem cell filtering separator, the utility model discloses an add coupling hose one, the delivery pump, miniature sucking disc, the storage jar, holding vessel and bracing piece, this design is convenient for collect mixed blood through the storage jar, and be convenient for respectively to plasma through the holding vessel, stem cell and red blood cell are collected, then flow back through a pair of mixed blood of delivery pump and coupling hose, and separate once more, thereby the collection scope has been enlarged, and be convenient for swing through the bracing piece, thereby the solidification of blood has been avoided, the current umbilical cord blood has been solved when separating, only separate once generally, the separation effect is poor, and great waste has been caused, and do not swing blood, lead to the problem that blood easily solidifies.

Because of adding L type branch, this design is convenient for support the bracing piece, because of adding the motor, this design is convenient for drive the bracing piece and rotates, because of adding the filter screen, this design is convenient for filter the umbilical cord blood, because of adding spout and locking bolt, this design is convenient for fix the sliding ring, the utility model discloses convenient to use, the function of repetitious separation has been realized in the operation of being convenient for, and is convenient for swing and collect.

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 stem cell filtration separator according to the present invention;

FIG. 2 is a schematic cross-sectional view of a swing mechanism of a stem cell filtration separator according to the present invention;

FIG. 3 is a schematic view of the assembly of the middle support frame, the slip ring and the fixing rod of the stem cell filtration separator of the present invention;

FIG. 4 is a schematic view of the assembly of the feed tube, the discharge tube and the filter screen of the stem cell filtration separator of the present invention;

FIG. 5 is a schematic view of the assembly of the separator and the liquid outlet pipe in the stem cell filtration separator of the present invention;

in the figure: 1-bottom plate, 2-swing mechanism, 3-L type supporting rod, 4-separator, 5-discharging pipe, 6-charging barrel, 7-feeding pipe, 8-fixed rod, 9-sliding ring, 10-supporting frame, 11-motor III, 12-locking bolt, 13-sliding chute, 14-switching valve I, 15-filter screen, 16-liquid outlet pipe, 17-switching valve II, 21-connecting hose I, 22-delivery pump, 23-micro sucking disc, 24-storage tank, 25-collection tank, 26-supporting rod, 27-limiting groove, 28-motor I, 29-stirring shaft, 30-stirring blade, 31-rotating shaft I, 32-motor II, 33-protective shell, 34-rotating shaft II, 35-bevel gear I, 35-bevel gear II, V-gear III-gear-V-gear, 36-bevel gear two.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-5, the present invention provides a technical solution: a stem cell filtering separator comprises a bottom plate 1, the right part of the upper end surface of the bottom plate 1 is fixedly connected with a support frame 10 through a bolt, the left end of the support frame 10 is fixedly connected with a material cylinder 6 through a flange, the annular side surface of the support frame 10 is in sliding connection with a sliding ring 9, the left end of the sliding ring 9 is fixedly welded with a fixed rod 8, the left end of the fixed rod 8 is fixedly connected with a separator 4 through a flange, the upper end of the separator 4 is connected with a discharge pipe 5 through a pipeline, the discharge pipe 5 is fixed on the lower end surface of the material cylinder 6, the lower end of the separator 4 is connected with a swing mechanism 2, the swing mechanism 2 is placed at the upper end of the bottom plate 1, a circuit between the separator 4 and an external power supply is connected, a user pours umbilical cord blood into the material cylinder 6, then the umbilical cord blood passes through a filter screen 15 and moves to the lower part in the material cylinder, then, a user pours the hydroxyethyl starch solution into the separator 4 through the feeding pipe 7, and then the separator 4 works to separate the cord blood, so that the cord blood is layered and divided into three layers, wherein the upper layer is plasma, the middle layer is stem cells, and the lower layer is red blood cells.

The swinging mechanism 2 comprises a connecting hose I21, a delivery pump 22, a micro sucker 23, a storage tank 24, a collection tank 25 and a support rod 26, the micro sucker 23 is fixedly embedded at the upper end of the annular side surface of the support rod 26, the micro sucker 23 is respectively and fixedly adsorbed at the lower ends of the storage tank 24 and the collection tank 25, the micro sucker 23 is convenient to adsorb and fix the storage tank 24 and the collection tank 25 and is convenient to disassemble, the storage tank 24 and the collection tank 25 are both arranged at the lower side of the separator 4, the lower left side of the storage tank 24 is fixedly connected with the delivery pump 22 through a flange plate, the left end of the delivery pump 22 is communicated with the upper left side of the material cylinder 6 through the connecting hose I21, the storage tank 24 is arranged at the left side of the collection tank 25, then a circuit between an external power supply and a motor III 11 is connected, then the motor III, then, the second switch valve 17 on the rightmost liquid outlet pipe 16 is opened, then the red blood cells enter the collection tank 25 through the liquid outlet pipe 16, when the red blood cells and the stem cells reach the area where the red blood cells and the stem cells are mixed, the second switch valve 17 is closed, the second switch valve 17 on the leftmost liquid outlet pipe 16 is opened, then the mixed liquid of the red blood cells and the stem cells enters the storage tank 24, then the second switch valve 17 is closed, the second switch valve 17 on the second liquid outlet pipe 16 on the right side, the second switch valve 17 on the leftmost liquid outlet pipe 16 and the second switch valve 17 on the third liquid outlet pipe 16 on the right side are sequentially opened according to the steps, so that the plasma, the stem cells and the red blood cells are respectively collected, then the delivery pump 22 is opened, and the delivery pump 22 works to drive the mixed blood to flow back into the material barrel 6 through the first connecting hose 21, so.

Both ends all process spacing groove 27 about bracing piece 26, and the spacing groove 27 of bracing piece 26 left end passes through the bearing and rotates with L type branch 3 to be connected, and L type branch 3 passes through the bolt fastening in bottom plate 1 upper end, and the design of spacing groove 27 and L type branch 3 is convenient for support bracing piece 26, and the bracing piece 26 of being convenient for carries out the rotation round its axis.

The output shaft of the left end of the motor III 11 is placed in the limiting groove 27 at the right end of the supporting rod 26, the right portion of the annular side face of the supporting rod 26 is rotatably connected with the fastening bolt through threads, the lower end of the fastening bolt penetrates through the supporting rod 26 and is in contact with the annular side face of the output shaft at the left end of the motor III 11, the supporting rod 26 is driven to rotate by the operation of the motor III 11, the fastening bolt rotates and moves downwards along the supporting rod 26, and therefore the output shaft at the left end of the motor III 11 is tightly jacke.

The top of the charging barrel 6 is provided with a first motor 28, the output end of the first motor 28 is fixedly connected with a stirring shaft 29, the bottom of the stirring shaft 29 is provided with a second motor 32, the output end of the second motor 32 is fixedly connected with a second rotating shaft 34, the second rotating shaft 34 is fixedly connected with a plurality of second conical gears 36, the second conical gears 36 are meshed with first conical gears 35, the first conical gears 35 are fixedly connected with first rotating shafts 31, the first rotating shafts 31 are provided with a plurality of stirring blades 30, the first motor 28 is started, the first motor 28 drives the stirring shaft 29 to rotate, the stirring blades 20 stir on a horizontal plane, the second motor 32 is started, the second motor 32 drives the second rotating shafts 34 to rotate, due to the meshed relation of the second conical gears 36 and the first conical gears 35, the first rotating shafts 31 are enabled to rotate, the vertical surfaces of the stirring blades 20 are driven to stir, the included angle, the design can ensure more sufficient stirring.

The lower part in the charging barrel 6 is fixed with a filter screen 15 through a bolt, the lower right side of the annular side surface of the discharging pipe 5 is connected with a first switch valve 14, and the first switch valve 14 is rotated, so that the discharging pipe 5 is opened, and then the umbilical cord blood is convenient to leave the charging barrel 6 through the discharging pipe 5.

Four drain pipes 16 are fixed to the lower end of the separator 4 through a flange, the lower ends of the four drain pipes 16 are respectively connected with a storage tank 24 and three collecting tanks 25 through connecting hoses II, a switch valve II 17 is connected to the drain pipes 16, the right portion of the upper end face of the separator 4 is fixedly connected with the feeding pipe 7 through a flange, the four drain pipes 16 are convenient to connect the storage tank 24 and the three collecting tanks 25, and the opening and closing of the drain pipes 16 are convenient to control due to the design of the switch valve II 17.

Support frame 10 annular side right-hand member processing spout 13, sliding ring 9 annular side right-hand member is connected with locking bolt 12 through the screw thread, locking bolt 12 left end passes sliding ring 9, and stretch into in the sliding groove 13, sliding ring 9 removes along support frame 10, thereby drive separating centrifuge 4 through dead lever 8 and reciprocate, and then realize carrying out the function of increaseing to separator 4, then rotate locking bolt 12, locking bolt 12 rotates and moves left along sliding ring 9, and then realize the top tightly in sliding groove 13, thereby fix and spacing sliding ring 9.

The third motor 11, the first motor 28 and the second motor 32 are servo motors with positive and negative rotation functions.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A stem cell filter separator, comprising a base plate (1), characterized in that: the right part of the upper end face of the bottom plate (1) is fixedly connected with a support frame (10) through a bolt, the left end of the support frame (10) is fixedly connected with a charging barrel (6) through a flange, the annular side face of the support frame (10) is in sliding connection with a sliding ring (9), the left end of the sliding ring (9) is welded and fixed with a fixed rod (8), the left end of the fixed rod (8) is fixedly connected with a separator (4) through a flange, the upper end of the separator (4) is connected with a discharging pipe (5) through a pipeline, the discharging pipe (5) is fixed on the lower end face of the charging barrel (6), the lower end of the separator (4) is connected with a swinging mechanism (2), and the swinging mechanism (;

swing mechanism (2) are including coupling hose (21), delivery pump (22), miniature sucking disc (23), storage jar (24), collection tank (25) and bracing piece (26), fixed miniature sucking disc (23) are inlayed to bracing piece (26) annular side upper end, miniature sucking disc (23) adsorb respectively and fix at storage jar (24) and collection tank (25) lower extreme, storage jar (24) and collection tank (25) are all placed at separating centrifuge (4) downside, storage jar (24) left side below is through ring flange and delivery pump (22) fixed connection, delivery pump (22) left end is linked together through coupling hose (21) and feed cylinder (6) upper left side, storage jar (24) are placed in collection tank (25) left side.

2. The stem cell filtration separator of claim 1, wherein: both ends all process spacing groove (27) about bracing piece (26), spacing groove (27) of bracing piece (26) left end are passed through the bearing and are rotated with L type branch (3) and be connected, L type branch (3) are through the bolt fastening in bottom plate (1) upper end.

3. The stem cell filtration separator of claim 1, wherein: an output shaft at the left end of the motor III (11) is placed in a limiting groove (27) at the right end of the supporting rod (26), the right part of the annular side face of the supporting rod (26) is rotatably connected with a fastening bolt through threads, and the lower end of the fastening bolt penetrates through the supporting rod (26) and is in contact with the annular side face of the output shaft at the left side of the motor III (11).

4. The stem cell filtration separator of claim 1, wherein: the lower part passes through bolt fastening filter screen (15) in feed cylinder (6), discharging pipe (5) annular side right side below connect switch valve (14).

5. The stem cell filter separator of claim 4, wherein: the charging barrel top (6) portion is equipped with motor one (28), output fixed connection (mixing) shaft (29) of motor one (28), (mixing) shaft (29) bottom is equipped with motor two (32), motor two (32) output end fixedly connected with axis of rotation two (34), a plurality of bevel gear two (36) of fixedly connected with on axis of rotation two (34), bevel gear two (36) meshing is connected with bevel gear one (35), bevel gear one (35) fixed connection axis of rotation one (31), be equipped with a plurality of stirring leaf (30) on axis of rotation one (31).

6. The stem cell filter separator of claim 5, wherein: and a protective shell (33) is arranged outside the second motor (32).

7. The stem cell filter separator of claim 5, wherein: the included angle between the stirring blade (30) and the first rotating shaft (31) is 30-90 degrees.

8. A stem cell filtration separator according to claim 3, wherein: the motor III (11), the motor I (28) and the motor II (32) are servo motors with positive and negative rotation functions.

9. The stem cell filtration separator of claim 1, wherein: the separating centrifuge (4) lower extreme passes through four drain pipes (16), four of ring flange fixed drain pipe (16) lower extreme all is connected with a storage jar (24) and three collecting vessel (25) respectively through coupling hose two, connect switch valve two (17) on drain pipe (16), separating centrifuge (4) up end right part is through ring flange and pan feeding pipe (7) fixed connection.

10. The stem cell filtration separator of claim 1, wherein: the right end of the annular side face of the support frame (10) is provided with a sliding groove (13), the right end of the annular side face of the sliding ring (9) is connected with a locking bolt (12) through threads, and the left end of the locking bolt (12) penetrates through the sliding ring (9) and extends into the sliding groove (13).