CN115069111A

CN115069111A - Bioengineering homomixer

Info

Publication number: CN115069111A
Application number: CN202210894445.3A
Authority: CN
Inventors: 黄美玲
Original assignee: Jiangsu Chenyi Jingze Biotechnology Co ltd
Current assignee: Jiangsu Chenyi Jingze Biotechnology Co ltd
Priority date: 2022-07-28
Filing date: 2022-07-28
Publication date: 2022-09-20

Abstract

The invention relates to a bioengineering uniform mixer, which comprises a sealing mechanism for sealing, a stirring mechanism for providing mixed power, a power mechanism for providing rotary power for the stirring mechanism, a reciprocating power mechanism for adjusting a stirring mode of the stirring mechanism in a later period at a high speed in a rotary manner, and a blade power switching mechanism, the power mechanism is arranged at the upper end of the sealing mechanism, four groups of stirring mechanisms are uniformly arranged in the sealing mechanism, the stirring mechanism is connected with the periphery of the power mechanism, the lifting matching mechanism is arranged at the inner side of the power mechanism, the lifting matching mechanism is connected with the stirring mechanism through the blade power switching mechanism, the bottom of the lifting matching mechanism is connected with the power mechanism through the reciprocating power mechanism, the mixer is used for solving the technical problems that the power shaft is stressed unevenly when the mixer starts and the mixture is piled up in the later period of mixing to cause uneven mixing.

Description

Bioengineering homomixer

Technical Field

The invention relates to the field of bioengineering equipment, in particular to a bioengineering uniform mixer.

Background

Bioengineering is the combination of molecular genetics, microbiology, cell biology, biochemistry, chemical engineering and energy science, and its application range is very wide, including medicine, food, agriculture and forestry, horticulture, chemical industry, metallurgy, oil extraction, new technology of fermentation tank and new substrate environment protection. Many of the existing microbiology-based industries have been improved by genetic engineering and utilization, and have alleviated social problems such as environmental pollution.

Use after the biological material that often need will be different mixes in the bioengineering field, but current mixing apparatus mixes evenly inadequately, and mixing efficiency is low, and causes the power shaft atress inequality to damage because of the height low concentration difference is easy when mixing, and also can take place the mixture when the high-speed stirring of later stage and pile up and cause the uneven condition of stirring.

Disclosure of Invention

The invention provides a bioengineering uniform mixer, which aims to solve the technical problems that a power shaft is stressed unevenly when the mixer starts and the mixture is accumulated in the later period of stirring to cause uneven stirring.

The bioengineering homomixer of the invention adopts the following technical proposal: including being used for sealed sealing mechanism, still including the rabbling mechanism that is used for providing hybrid and be used for the rabbling mechanism provides rotary power's power unit and is used for the rabbling mechanism adjusts reciprocal power unit, the blade power switching mechanism of stirring mode at the high-speed rotation type in later stage, install the sealing mechanism upper end power unit, four groups are evenly installed to the inside of sealing mechanism rabbling mechanism, rabbling mechanism connects power unit is peripheral, and the cooperation of going up and down mechanism installs the power unit inboard, the cooperation of going up and down mechanism passes through blade power switching mechanism connects rabbling mechanism, the cooperation of going up and down mechanism bottom is passed through reciprocal power unit connects power unit.

Further, sealing mechanism includes the agitator, sealed lid is installed to the agitator upper end, the feeding lid is installed to sealed lid upper end one side, the agitator bottom is provided with the supporting leg, just the bleeder valve is installed to the agitator bottom surface.

Further, power unit includes the motor, the motor is installed sealed upper end, motor power take off end is connected with the power shaft, the power shaft runs through sealed lid is connected inside the agitator the cooperation mechanism that goes up and down, cooperation mechanism external connection has a power section of thick bamboo, the power section of thick bamboo supports sealed lid bottom surface with the inside bottom surface of agitator.

Further, lift cooperation mechanism includes hollow connecting seat, hollow connecting seat is installed the inside top surface position of power section of thick bamboo, the inside top surface of hollow connecting seat is installed and is gone up the conical seat, it is provided with down the conical seat to go up the conical seat downside, go up the conical seat be provided with three centrifugal ball down between the conical seat, go up conical seat bottom surface central point and put and install the awl piece, terminal surface is connected with the lift even axle down under the conical seat, the conical seat passes through reset spring and connects the inboard bottom surface of hollow connecting seat down, the epaxial correspondence of lift even four lift bevel gears are installed to blade power switching mechanism position, the lift even axle runs through hollow connecting seat bottom surface is connected with bottom bevel gear, bottom bevel gear with through setting up the cooperation of the bottom taper tooth's socket of the inboard bottom surface of power section of thick bamboo.

Further, rabbling mechanism includes stirring vane, stirring vane one end is connected at the stirring and is epaxial even, the stirring is even epaxial to rotate and is connected on outer solid fixed ring, outer solid fixed ring rotates to be connected the power section of thick bamboo is outside, outer solid fixed ring with be provided with the groove that the restriction goes up and down between the power section of thick bamboo, outer solid fixed ring goes up even shaping and has four restrictions the groove of stirring even axle, and groove opening angle is 60 degrees.

Further, reciprocating power unit includes reciprocal power section of thick bamboo, reciprocal power section of thick bamboo bottom fixed connection bottom bevel gear, evenly formed has the guide way on the reciprocal power section of thick bamboo, reciprocal cooperation section of thick bamboo is provided with to reciprocal power section of thick bamboo inside, reciprocal cooperation section of thick bamboo is last to be formed has reciprocal groove, reciprocal cooperation section of thick bamboo inside axle center is connected with the dead lever, be connected with the cooperation round pin axle on the dead lever, the cooperation round pin axle runs through the dead lever reciprocal groove the guide way.

Further, the blade power switching mechanism comprises a telescopic sleeve, the telescopic sleeve is connected to the stirring connecting shaft penetrating through the power cylinder, a driven bevel gear is mounted at one end of the telescopic sleeve, an adjusting gear is mounted at the other end of the telescopic sleeve, a release cavity is formed between the adjusting gear and the power cylinder, the interior of the release cavity, close to an initial position, is connected with the telescopic sleeve through a telescopic spring, the interior of the telescopic sleeve is connected with the stirring connecting shaft in a sliding mode through a spline, adjusting racks are mounted on the upper end face and the lower end face of one side, close to the telescopic sleeve, of the interior of the release cavity, a telescopic spring is arranged between the interior of the telescopic sleeve and the stirring connecting shaft, the lower end of one group of adjusting racks at the bottom is of a toothed structure, and the upper end of the adjusting racks is of a smooth surface structure; in the group of adjusting racks at the top, the upper end of each adjusting rack is of a toothed structure, and the lower end of each adjusting rack is of a smooth surface structure; in the middle two groups of adjusting racks, the upper end of each adjusting rack is of a half-smooth structure with one half of teeth, and the lower end of each adjusting rack is of a half-smooth structure with one half of teeth.

The invention has the beneficial effects that: when the invention is started, the matching of the adjusting gear and the adjusting rack can be utilized, when the stirring blade at the bottom is contacted with a mixture with higher concentration, the stirring blade is passively turned by utilizing the torque force, so that the contact area of the stirring blade at the bottom and the cross section of the mixture is reduced, meanwhile, the mixture is pushed upwards, so that the power on the power cylinder is uniformly stressed up and down, the damage caused by the uneven stress of the power cylinder is avoided, after the high-speed rotation at the later stage, the mixture is accumulated at the corner of the stirring barrel, and the reciprocating turning of the stirring blade is utilized, so that the turbulence is formed inside, the accumulation is avoided, and the mixing efficiency 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 diagram of an embodiment of a bioengineering homomixer of the present invention;

FIG. 2 is a schematic view of the internal structure of a mixing tank of an embodiment of the biological engineering homomixer of the present invention;

FIG. 3 is a schematic view of the starting structure of the stirring blade of the embodiment of the biological engineering homomixer of the present invention;

FIG. 4 is a schematic structural diagram of a biological engineering homomixer according to an embodiment of the present invention when the stirring blades rotate at a high speed;

FIG. 5 is a schematic structural diagram of a blade power switching mechanism during startup according to an embodiment of the biological engineering homomixer of the present invention;

FIG. 6 is a schematic structural diagram of a blade power switching mechanism during high-speed rotation of an embodiment of a biological engineering homomixer of the present invention;

FIG. 7 is a schematic diagram of a centrifugal ball throwing structure of a biological engineering homogenizer according to an embodiment of the present invention;

FIG. 8 is a schematic view of a contracted centrifugal ball of an embodiment of the biological uniform mixer of the present invention;

FIG. 9 is a top view of a blade power switching mechanism of an embodiment of a biological engineered homomixer of the present invention;

FIG. 10 is a schematic diagram of the structure of the extension spring of the embodiment of the biological engineering homomixer of the present invention;

FIG. 11 is a schematic diagram of the reciprocating power mechanism of the embodiment of the biological engineering homomixer of the present invention;

FIG. 12 is an exploded view of a reciprocating power mechanism of an embodiment of the biological engineering homomixer of the present invention;

in the figure: 1. a sealing mechanism; 2. a power mechanism; 3. a lifting matching mechanism; 4. a stirring mechanism; 5. a reciprocating power mechanism; 6. a blade power switching mechanism; 11. a stirring barrel; 12. a sealing cover; 13. a feeding cover; 14. a discharge valve; 21. a motor; 22. a power shaft; 23. a power cylinder; 31. a hollow connecting seat; 32. an upper cone seat; 33. a lower cone base; 34. a return spring; 35. a lifting connecting shaft; 36. a lifting bevel gear; 37. a bottom bevel gear; 38. the bottom is matched with the conical tooth groove; 39. a centrifugal ball; 41. a stirring blade; 42. a stirring connecting shaft; 43. an outer fixing ring; 51. a reciprocating power cylinder; 52. fixing the rod; 53. a reciprocating mating cylinder; 54. matching with a pin shaft; 55. a guide groove; 56. a reciprocating groove; 61. a driven bevel gear; 62. a telescopic sleeve; 63. an adjusting gear; 64. adjusting the rack; 65. a release chamber; 66. a tension spring; 67. a tension spring.

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.

The embodiment of the bioengineering homomixer of the invention is shown in fig. 1 to 12, and comprises a sealing mechanism 1 for sealing, a stirring mechanism 4 for providing hybrid power, a power mechanism 2 for providing rotary power for the stirring mechanism 4, a reciprocating power mechanism 5 for adjusting a stirring mode of the stirring mechanism 4 at a high speed and in a rotary mode at a later stage, and a blade power switching mechanism 6, wherein the upper end of the sealing mechanism 1 is provided with the power mechanism 2, four groups of stirring mechanisms 4 are uniformly arranged in the sealing mechanism 1, the stirring mechanism 4 is connected to the periphery of the power mechanism 2, a lifting matching mechanism 3 is arranged at the inner side of the power mechanism 2, the lifting matching mechanism 3 is connected with the stirring mechanism 4 through the blade power switching mechanism 6, and the bottom of the lifting matching mechanism 3 is connected with the power mechanism 2 through the reciprocating power mechanism 5.

Sealing mechanism 1 includes agitator 11, and sealed lid 12 is installed to 11 upper ends of agitator, and feeding lid 13 is installed to sealed 12 upper end one side, and 11 bottoms of agitator are provided with the supporting leg, and 11 bottom surfaces of agitator install bleeder valve 14.

The power mechanism 2 comprises a motor 21, the motor 21 is installed at the upper end of the sealing cover 12, the power output end of the motor 21 is connected with a power shaft 22, the power shaft 22 penetrates through the sealing cover 12 to be connected with the lifting matching mechanism 3 inside the stirring barrel 11, the outer portion of the lifting matching mechanism 3 is connected with a power barrel 23, and the power barrel 23 abuts against the bottom surface of the sealing cover 12 and the bottom surface inside the stirring barrel 11.

Lift mating mechanism 3 includes hollow connecting seat 31, hollow connecting seat 31 is installed in the inside top surface position of power tube 23, the interior top surface of hollow connecting seat 31 is installed and is gone up conical seat 32, it is provided with down conical seat 33 to go up conical seat 32 downside, go up conical seat 32, be provided with three centrifugal ball 39 between the lower conical seat 33, the awl piece is installed to last conical seat 32 bottom surface central point, the terminal surface is connected with lift even axle 35 down conical seat 33, lower conical seat 33 passes through reset spring 34 and connects the inboard bottom surface of hollow connecting seat 31, it evenly installs four lift bevel gears 36 to correspond blade power switching mechanism 6 positions on the axle 35 to go up and down, lift even axle 35 runs through hollow connecting seat 31 bottom surface and is connected with bottom bevel gear 37, bottom bevel gear 37 cooperates with bottom cooperation taper tooth's socket 38 through setting up at the inboard bottom surface of power tube 23.

Rabbling mechanism 4 includes stirring vane 41, and stirring vane 41 one end is connected on stirring even axle 42, and stirring even axle 42 rotates to be connected on outer solid fixed ring 43, and outer solid fixed ring 43 rotates to be connected in power section of thick bamboo 23 outside, is provided with the groove that the restriction goes up and down between outer solid fixed ring 43 and the power section of thick bamboo 23, and outer solid fixed ring 43 goes up even shaping has four grooves of restriction stirring even axle 42, and groove opening angle is 60 degrees.

The reciprocating power mechanism 5 comprises a reciprocating power cylinder 51, the bottom of the reciprocating power cylinder 51 is fixedly connected with a bottom bevel gear 37, guide grooves 55 are uniformly formed in the reciprocating power cylinder 51, a reciprocating matching cylinder 53 is arranged inside the reciprocating power cylinder 51, a reciprocating groove 56 is formed in the reciprocating matching cylinder 53, a fixing rod 52 is connected to the axis inside the reciprocating matching cylinder 53, a matching pin shaft 54 is connected to the fixing rod 52, and the matching pin shaft 54 penetrates through the fixing rod 52, the reciprocating groove 56 and the guide grooves 55.

The blade power switching mechanism 6 comprises an expansion sleeve 62, the expansion sleeve 62 is connected to a stirring connecting shaft 42 penetrating through a power cylinder 23, a driven bevel gear 61 is installed at one end of the expansion sleeve 62, an adjusting gear 63 is installed at the other end of the expansion sleeve 62, a release cavity 65 is formed between the adjusting gear 63 and the power cylinder 23, the inner part of the release cavity 65, close to the initial position, is connected with the expansion sleeve 62 through an expansion spring 66, the inner part of the expansion sleeve 62 is connected with the stirring connecting shaft 42 in a sliding mode through a spline, adjusting racks 64 are installed on the upper end face and the lower end face of one side, close to the expansion sleeve 62, of the inner part of the release cavity 65, the expansion spring 66 is arranged between the inner part of the expansion sleeve 62 and the stirring connecting shaft 42, the lower end of a group of adjusting racks 64 at the bottom is of a toothed structure, and the upper end of the adjusting racks 64 is of a smooth surface structure; in the adjusting racks 64 in the top group, the upper end is of a toothed structure, and the lower end is of a smooth surface structure; in the middle two groups of adjusting racks 64, the upper end is a half smooth structure with half teeth, and the lower end is a half smooth structure with half teeth.

When the device is started, the motor 21 is utilized to drive the hollow connecting seat 31 and the power cylinder 23 to rotate, so that the stirring connecting shaft 42 and the stirring blades 41 outside the outer fixing ring 43 are driven to rotate through the meshing of the adjusting rack 64 and the adjusting gear 63, at the moment, because the concentration of the bottom is higher, after the stirring blades 41 at the bottom contact the mixture, the outer fixing ring 43 and the power cylinder 23 are twisted relatively, so that the stirring connecting shaft 42 slides in a chute inside the outer fixing ring 43, the adjusting gear 63 is meshed with the adjusting rack 64, so that the stirring blades 41 at the bottom rotate clockwise, after the rotation, the contact area of the cross sections of the stirring blades 41 and the mixture is reduced, so that the opposite torsion force to the stirring connecting shaft 42 and the power cylinder 23 is reduced, the concentration of the mixture contacted by the stirring blades 41 at the upper end is lower, and the contact mode of the adjusting gear 63 and the adjusting rack 64 is opposite to the bottom, therefore, the stirring blades 41 at the top rotate counterclockwise at a smaller turnover angle, so that the reverse torque of the four groups of stirring connecting shafts 42 on the power cylinder 23 is basically the same, the stress of the power cylinder 23 can tend to be balanced, the power cylinder 23 can be stressed uniformly to avoid damage, and meanwhile, the mixture with higher concentration can form an upward thrust by the turnover of the stirring blades 41 at the bottom, so that the mixing effect is improved;

after starting at a constant speed, the concentration at the top is gradually increased relative to the initial stage, and the concentration at the bottom is gradually decreased relative to the initial stage, so that the torque force applied to the stirring blade 41 at the top is gradually increased, a downward thrust force is generated on the mixture after the stirring blade rotates anticlockwise, the stirring blade 41 at the bottom is gradually reset by the tension of the tension spring 67, the contact surface with the mixture is gradually increased, and the stress of the power cylinder 23 tends to be stable in the changing process;

when the power cylinder 23 rotates at a high speed, the centrifugal ball 39 between the upper conical seat 32 and the lower conical seat 33 is gradually expanded outwards by centrifugal force, so that the centrifugal ball 39 extrudes the lower conical seat 33 to move downwards, the lower conical seat 33 drives the lifting connecting shaft 35 and the lifting bevel gear 36 mounted on the lifting connecting shaft 35 to move downwards, the lifting bevel gear 36 moves downwards to be matched with the driven bevel gear 61, meanwhile, the lifting connecting shaft 35 drives the bottom bevel gear 37 to move downwards to be matched with the bottom matching bevel gear groove 38 on the power cylinder 23, the bottom bevel gear 37 drives the reciprocating power cylinder 51 to fall, the power cylinder 23 drives the reciprocating power cylinder 51 to rotate through the bottom bevel gear 37, reciprocating power cylinder 51 is rotatory back through the reciprocal cooperation section of thick bamboo 53 of inside cooperation round pin axle 54 cooperation, and guide way 55 this moment is through the reciprocal groove 56 of cooperation round pin axle 54 cooperation, thereby change reciprocating power cylinder 51's continuous rotation into reciprocating cooperation 53's reciprocal rotation, and reciprocal cooperation section of thick bamboo 53 and the even axle 35 fixed connection of lift, thereby drive the even axle 35 reciprocating rotation of lift, the even axle 35 reciprocating rotation of lift this moment drives stirring even axle 42 and stirring vane 41 through passive bevel gear 61 and carries out reciprocating rotation, multiunit stirring vane 41 carries out reciprocating rotation back, make inside mixture form the turbulent flow, thereby make stirring effect better.

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. A bioengineering homomixer, comprising a sealing mechanism (1) for sealing, characterized in that: also comprises a stirring mechanism (4) for providing hybrid power, a power mechanism (2) for providing rotary power for the stirring mechanism (4), a reciprocating power mechanism (5) for adjusting a stirring mode of the stirring mechanism (4) at a high speed in a rotary manner at a later stage, and a blade power switching mechanism (6), the power mechanism (2) is arranged at the upper end of the sealing mechanism (1), four groups of stirring mechanisms (4) are uniformly arranged in the sealing mechanism (1), the stirring mechanism (4) is connected with the periphery of the power mechanism (2), the lifting matching mechanism (3) is arranged at the inner side of the power mechanism (2), the lifting matching mechanism (3) is connected with the stirring mechanism (4) through the blade power switching mechanism (6), the bottom of the lifting matching mechanism (3) is connected with the power mechanism (2) through the reciprocating power mechanism (5).

2. The bioengineered homomixer of claim 1, wherein: sealing mechanism (1) includes agitator (11), sealed lid (12) are installed to agitator (11) upper end, feeding cover (13) are installed to sealed lid (12) upper end one side, agitator (11) bottom is provided with the supporting leg, just bleeder valve (14) are installed to agitator (11) bottom surface.

3. A bioengineered homomixer according to claim 2, wherein: power unit (2) include motor (21), motor (21) are installed sealed lid (12) upper end, motor (21) power take off end is connected with power shaft (22), power shaft (22) run through sealed lid (12) are connected inside lift cooperation mechanism (3), lift cooperation mechanism (3) external connection has power section of thick bamboo (23), power section of thick bamboo (23) are supported sealed lid (12) bottom surface with the inside bottom surface of agitator (11).

4. A bioengineered homomixer according to claim 3, wherein: the lifting matching mechanism (3) comprises a hollow connecting seat (31), the hollow connecting seat (31) is installed at the position of the inner top surface of the power cylinder (23), an upper conical seat (32) is installed at the inner top surface of the hollow connecting seat (31), a lower conical seat (33) is arranged on the lower side of the upper conical seat (32), three centrifugal balls (39) are arranged between the upper conical seat (32) and the lower conical seat (33), a conical block is installed at the center of the bottom surface of the upper conical seat (32), a lifting connecting shaft (35) is connected to the lower end surface of the lower conical seat (33), the lower conical seat (33) is connected to the inner bottom surface of the hollow connecting seat (31) through a reset spring (34), four lifting bevel gears (36) are evenly installed on the lifting connecting shaft (35) corresponding to the positions of the blade power switching mechanism (6), the lifting connecting shaft (35) penetrates through the bottom surface of the hollow connecting seat (31) and is connected with a bottom bevel gear (37), the bottom bevel gear (37) is matched with a bottom matching bevel gear groove (38) arranged on the bottom surface of the inner side of the power cylinder (23).

5. A bioengineered homomixer according to claim 4, wherein: rabbling mechanism (4) are including stirring vane (41), stirring vane (41) one end is connected on stirring even axle (42), stirring even axle (42) is rotated and is connected on outer solid fixed ring (43), outer solid fixed ring (43) are rotated and are connected power tube (23) outside, outer solid fixed ring (43) with be provided with the groove that the restriction goes up and down between power tube (23), even shaping has four restrictions on outer solid fixed ring (43) the stirring is the groove of axle (42) even, and groove opening angle is 60 degrees.

6. A bioengineered homomixer according to claim 5, wherein: the reciprocating power mechanism (5) comprises a reciprocating power cylinder (51), the bottom of the reciprocating power cylinder (51) is fixedly connected with the bottom bevel gear (37), a guide groove (55) is uniformly formed in the reciprocating power cylinder (51), a reciprocating matching cylinder (53) is arranged inside the reciprocating power cylinder (51), a reciprocating groove (56) is formed in the reciprocating matching cylinder (53), a fixing rod (52) is connected to the axis inside the reciprocating matching cylinder (53), a matching pin shaft (54) is connected to the fixing rod (52), and the matching pin shaft (54) penetrates through the fixing rod (52), the reciprocating groove (56) and the guide groove (55).

7. The bioengineered homomixer of claim 6, wherein: the blade power switching mechanism (6) comprises an expansion sleeve (62), the expansion sleeve (62) is connected to a stirring connecting shaft (42) penetrating through the power cylinder (23), a driven bevel gear (61) is installed at one end of the expansion sleeve (62), an adjusting gear (63) is installed at the other end of the expansion sleeve (62), a release cavity (65) is formed between the adjusting gear (63) and the power cylinder (23), the inner part of the release cavity (65) close to an initial position is connected with the expansion sleeve (62) through an expansion spring (66), the inner part of the expansion sleeve (62) is connected with the stirring connecting shaft (42) in a sliding mode through splines, an adjusting rack (64) is installed on the upper end face and the lower end face of one side, close to the expansion sleeve (62), of the inner part of the expansion sleeve (62) and the stirring connecting shaft (42) are internally provided with the expansion spring (66), in the adjusting racks (64) in the group at the bottom, the lower end is of a toothed structure, and the upper end is of a smooth surface structure; in the adjusting racks (64) in the group at the top, the upper end is of a toothed structure, and the lower end is of a smooth surface structure; in the middle two groups of adjusting racks (64), the upper end is of a half smooth structure with half teeth, and the lower end is of a half smooth structure with half teeth.