CN111808735A - Biological amino acid production system - Google Patents

Abstract

The invention belongs to the technical field of amino acid production, and particularly relates to a biological amino acid production system which comprises a boss, a first conveyor belt, a strip-shaped groove, a T-shaped frame, a second conveyor belt, a first air cylinder, a square plate, a long screw, a square strip block, a second air cylinder, an L-shaped plate, a strip-shaped chute, a first motor, a rectangular carrier plate, a suction tube, a rubber ring block, a traction plate, a sliding block, a second motor, a bacteria liquid chamber, a drainage hole, a check valve, a drainage tube, a stirring plate and a piston rod. According to the invention, each group of three inoculation bottles is transferred to the first conveyor belt and is positioned in the area range of the strain liquid to be injected, meanwhile, the inoculation bottles injected with the strain liquid can be transferred to the bearing structure at one side to be transferred, so that the inoculation continuity of the subsequent strain liquid injection is ensured, the function of sucking and discharging the strain liquid is realized, the inoculation efficiency is improved by the alternate operation mode of the two sucking and discharging structures, the strain liquid can be injected into the three inoculation bottles at one time, and the function of providing driving power for the alternate strain liquid injection structure is provided.

Description

Biological amino acid production system

Technical Field

The invention belongs to the technical field of amino acid production, and particularly relates to a biological amino acid production system.

Background

The amino acid is colorless crystal, the melting point is over 200 ℃, the melting point is much higher than that of common organic compounds, the alpha-amino acid has 4 different tastes of acid, sweet, bitter and fresh, and monosodium glutamate and glycine are the delicious seasoning with the largest dosage. Amino acid is generally easily soluble in water, acid solution and alkali solution, insoluble or slightly soluble in organic solvent such as ethanol or diethyl ether, and the solubility of amino acid in water is very different, for example, the solubility of tyrosine is minimum, at 25 ℃, 100g of tyrosine in water is only dissolved by 0.045g, but the solubility of tyrosine in hot water towel is larger.

Need the bacterial to ferment in amino acid production, thereby will pour into the container bottle that corresponds with the fungus liquid in, the equipment that generally injects the fungus liquid into in the container bottle exists and can only unilateral operation injection fungus liquid and inconvenient both sides alternate operation injection fungus liquid's structure is not enough, and efficiency remains to be improved, because the container bottle that need inject into is more, single pouring into fungus liquid one by one delays time, and place the container bottle discontinuity and also can influence the progress, the container quiescent time of splendid attire fungus liquid simultaneously is long, then the deposition condition can appear, be unfavorable for evenly injecting into the container bottle with the fungus liquid. Therefore, a system for producing a biological amino acid has been proposed to solve the above problems.

Disclosure of Invention

The present invention has been made to solve the above problems, and an object of the present invention is to provide a system for producing a biological amino acid.

The invention realizes the aim through the following technical scheme, and the biological amino acid production system comprises a boss, a strain leading-out mechanism, a strain suction mechanism, a reciprocating mechanism and a bottle body conveying mechanism, wherein strip-shaped grooves are formed in the adjacent surfaces of two sides of a lug structure at the top of the boss, and one end of a convex side plate of a T-shaped frame is arranged at the top of the boss;

the strain leading-out mechanism comprises a strain chamber and a drainage tube, the strain chamber is arranged in the boss, three stirring plates are rotatably arranged at the bottom in the strain chamber, one ends of rotating connecting shafts at the bottoms of the three stirring plates are arranged at one ends of shaft rods of corresponding second motors, a check valve is arranged on the inner side of the top of the drainage tube, and a port at the top of the drainage tube is arranged on a port at the bottom of a corresponding drainage hole;

the strain suction mechanism comprises a suction tube and a second cylinder, a piston rod is slidably mounted in the suction tube, one end of the piston rod penetrates through the top surface of the rectangular support plate, a rubber ring block is sleeved at the bottom port of the suction tube, the second cylinder is mounted in the middle of a transverse plate of the corresponding L-shaped plate, one end of a push rod of the second cylinder is fixedly connected with one end of the piston rod through a pulling plate, and the two L-shaped plates are symmetrically mounted on two sides of the top surface of the rectangular support plate;

the reciprocating mechanism comprises two long screw rods, square plates are rotatably arranged on the inner sides of two ends of the two long screw rods, the square plates on the same long screw rod are arranged on the tops of the corresponding side walls in the T-shaped frame, two square bar blocks are connected between the two long screw rods in a threaded mode at intervals, a first air cylinder is arranged in the middle of the bottom of each square bar block, and the middle of the edges of two sides of the top of the rectangular support plate is arranged at the push rod end of each first air cylinder;

the bottle conveying mechanism comprises a first conveying belt, the first conveying belt is installed in the strip-shaped groove, one end of a conveying frame is installed on the surface of a boss on the outer side of the strip-shaped groove, a second conveying belt is installed in the conveying frame, and the second conveying belt and one side of the first conveying belt are in mutually perpendicular position relation.

Preferably, the drainage hole is equipped with three groups, and three groups the drainage hole is parallel to the equidistance and is opened in fungus liquid roof wall intermediate position, every two of group drainage hole top port inboard communicates each other.

Preferably, the suction tube is equipped with three groups, and three groups the suction tube is installed in rectangle support plate bottom both sides by equidistance side by side, and every group is two the suction tube is located the L template bottom space that corresponds respectively, and two the suction tube is located same perpendicular with a set of two drainage holes that correspond.

Preferably, both ends of each square strip block are provided with threaded holes, the two ends of each square strip block are fixedly connected with each other through a thin rod, the end faces of both ends of each square strip block are connected with the strip-shaped sliding grooves on the same side through sliding blocks in a sliding mode, and the strip-shaped sliding grooves are arranged on the inner walls of the T-shaped frames between the two corresponding square plates respectively.

Preferably, the conveying frames are two, the conveying frames are symmetrically arranged on the surfaces of the two sides of the boss, the other end of each conveying frame is located at the position where the inoculated bacteria bottles are concentrated to be placed, and the top surface of each conveying frame and the top surface of the first conveying belt, the top surface of the second conveying belt and the adjacent surfaces of the two sides of the lug structure at the top of the boss are located on the same horizontal plane.

Preferably, one end of the long screw is installed at one end of the shaft rod of the corresponding first motor, and the first motor is installed on the side face of the square plate at one end of the same long screw.

Preferably, the second motor is installed in the groove of the concave surface at the bottom of the boss, and the second motor and the first motor are both electrically connected with the external control equipment and the power supply through the conducting wire.

Preferably, the first cylinder and the second cylinder are connected with the corresponding pneumatic controller and the corresponding air pump through hoses, and the two second cylinders are located between the two first cylinders.

Preferably, the bacteria liquid chamber is filled with bacteria liquid and is communicated with an external container filled with bacteria liquid through a conduit.

Preferably, the port at the top of the drainage hole is communicated with the surface of the top of the boss, and the aperture of the port at the top of the drainage hole is consistent with the outer diameter of the rubber ring block.

The invention has the beneficial effects that:

(1) the production system of the biological amino acid has a compact structure, is beneficial to transferring each group of three inoculation bottles to the first conveyor belt and is positioned in the range of the region to be injected with the strain liquid, and simultaneously can transfer the inoculation bottles injected with the strain liquid to the bearing structure at one side to be transferred, so that the continuity of inoculation of the subsequent strain liquid injection is ensured; realize the function of suction row notes fungus liquid, and can improve inoculation efficiency through two suction row notes structure operation mode in turn, be convenient for once only pour into fungus liquid into to three inoculation bottle.

(2) This kind of biological amino acid's production system operation is stable, the first motor operation through start-up and corresponding controlgear electric connection drives the long screw and is corresponding rotation and drive two continuous square bar pieces along the regular reciprocating motion of long screw under the interact of power, reach the effect that drives the part that is connected reciprocating motion simultaneously, thereby realized providing drive power's function for injecting into fungus liquid structure in turn, production efficiency is improved, the second motor drive through the operation is located the indoor stirring board slow rotation of fungus liquid, guarantee that the fungus is in the flow state all the time, avoid appearing the sedimentary condition.

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 inventive exercise.

FIG. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the T-shaped frame of the present invention;

FIG. 3 is a partial plan view of a second cylinder and suction tube connecting structure according to the present invention;

FIG. 4 is a schematic view of the connection structure of the long screw and the square bar block of the present invention;

FIG. 5 is a schematic view of the internal structure of a brush boss according to the present invention;

FIG. 6 is a schematic view of the structure of the suction tube of the present invention.

In the figure: 1. the device comprises a boss, 2, a first conveyor belt, 3, a strip-shaped groove, 4, a T-shaped frame, 5, a second conveyor belt, 6, a first cylinder, 7, a square plate, 8, a long screw rod, 9, a square strip block, 10, a second cylinder, 11, an L-shaped plate, 12, a strip-shaped chute, 13, a first motor, 14, a rectangular carrier plate, 15, a suction tube, 16, a rubber ring block, 17, a traction plate, 18, a sliding block, 19, a second motor, 20, a bacteria liquid chamber, 21, a drainage hole, 22, a check valve, 23, a drainage tube, 24, a stirring plate, 25 and a piston rod.

Detailed Description

In order to make the objects, features and advantages of the present invention more obvious and understandable, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the embodiments described below 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 technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Referring to fig. 1-6, a system for producing biological amino acid comprises a boss 1, a strain leading-out mechanism, a strain suction mechanism, a reciprocating mechanism and a bottle body transmission mechanism, wherein strip-shaped grooves 3 are formed on adjacent surfaces of two sides of a lug structure on the top of the boss 1, and one end of a convex side plate of a T-shaped frame 4 is mounted on the top of the boss 1; the strain leading-out mechanism comprises astrain chamber 20 and adrainage tube 23, wherein thestrain chamber 20 is arranged inside the boss 1, threestirring plates 24 are rotatably arranged at the bottom in thestrain chamber 20, one ends of rotating connecting shafts at the bottoms of the threestirring plates 24 are arranged at one ends of shaft rods of the correspondingsecond motors 19,check valves 22 are arranged on the inner sides of the tops of thedrainage tubes 23, and ports at the tops of thedrainage tubes 23 are arranged on ports at the bottoms of thecorresponding drainage holes 21; the strain suction mechanism comprises asuction tube 15 and asecond cylinder 10, apiston rod 25 is slidably mounted in thesuction tube 15, one end of thepiston rod 25 penetrates through the top surface of therectangular support plate 14, arubber ring block 16 is sleeved at a bottom port of thesuction tube 15, thesecond cylinder 10 is mounted in the middle of a transverse plate of the corresponding L-shaped plate 11, one end of a push rod of thesecond cylinder 10 is fixedly connected with one end of thepiston rod 25 through apulling plate 17, and the two L-shaped plates 11 are symmetrically mounted on two sides of the top surface of therectangular support plate 14;

the reciprocating mechanism comprises twolong screw rods 8, the inner sides of two ends of each of the twolong screw rods 8 are rotatably provided withsquare plates 7, thesquare plates 7 on the samelong screw rod 8 are arranged at the tops of corresponding side walls in the T-shaped frame 4, twosquare blocks 9 are alternately in threaded connection between the twolong screw rods 8, afirst air cylinder 6 is arranged in the middle of the bottoms of the twosquare blocks 9, and the middle position of the edges of two sides of the top of arectangular carrier plate 14 is arranged at the push rod end of thefirst air cylinder 6;

bottle transport mechanism includesfirst conveyer belt 2,first conveyer belt 2 is installed instrip groove 3, and 1 surface mounting of boss in the 3 outsides of strip groove has conveying frame one end, installsecond conveyer belt 5 in the conveying frame, andsecond conveyer belt 5 is in mutually perpendicular's position relation with 2 one sides of first conveyer belt.

Three groups ofdrainage holes 21 are arranged, the three groups ofdrainage holes 21 are arranged in the middle of the top wall of the bacterialiquid chamber 20 in parallel and equidistantly, and the inner sides of the top ports of the twodrainage holes 21 in each group are communicated with each other, so that bacteria liquid in thebacteria liquid chamber 20 is drained to the corresponding position under the suction action of the corresponding structure to be sucked by thesuction cylinder 15; the three groups ofsuction tubes 15 are arranged, the three groups ofsuction tubes 15 are arranged on two sides of the bottom of therectangular support plate 14 in parallel and equidistantly, twosuction tubes 15 in each group are respectively positioned in the bottom space of the corresponding L-shaped plate 11, the twosuction tubes 15 and the corresponding group of twodrainage holes 21 are positioned on the same vertical plane, and the bottom ports of thecorresponding suction tubes 15 can be inserted into thecorresponding drainage holes 21 in a sliding manner for suction operation; threaded holes are formed in two ends of eachsquare strip block 9, the two ends of eachsquare strip block 9 are fixedly connected with each other through a thin rod, the end faces of the two ends of eachsquare strip block 9 are connected with the strip-shapedsliding grooves 12 on the same side in a sliding mode through slidingblocks 18, the two strip-shapedsliding grooves 12 are formed in the inner wall of the T-shaped frame 4 between the twocorresponding square plates 7, and therefore stable movement of thesquare strip blocks 9 is guaranteed; the two conveying frames are symmetrically arranged on the surfaces of the two sides of the boss 1, the other end of each conveying frame is located at a position where the inoculated bacteria bottles are concentrated to be placed, and the top surface of each conveying frame, the top surface of thefirst conveying belt 2, the top surface of thesecond conveying belt 5 and the adjacent surfaces of the two sides of the lug structure at the top of the boss 1 are located on the same horizontal plane, so that the inoculated bottles placed on thesecond conveying belt 5 can be conveniently moved onto thefirst conveying belt 2; one end of eachlong screw 8 is arranged at one end of a shaft rod of the correspondingfirst motor 13, and thefirst motors 13 are arranged on the side surfaces of thesquare plates 7 at one end of the samelong screw 8, so that thelong screws 8 are driven to rotate correspondingly through the startedfirst motors 13 under the control action of corresponding control equipment; thesecond motor 19 is arranged in a groove at the bottom of the boss 1, and thesecond motor 19 and thefirst motor 13 are both electrically connected with an external control device and a power supply through a conducting wire, so that the effect of controlling the operation of the corresponding motors is achieved; thefirst air cylinder 6 and thesecond air cylinder 10 are connected with corresponding pneumatic controllers and air pumps through hoses, and the twosecond air cylinders 10 are positioned between the twofirst air cylinders 6, so that the running state between thefirst air cylinders 6 and thesecond air cylinders 10 can be coordinated and controlled; the bacterialiquid chamber 20 is filled with bacteria liquid, and thebacteria liquid chamber 20 is communicated with an external container filled with bacteria through a conduit, so that the effect of containing and injecting the bacteria liquid for producing amino acid is achieved; the top port of thedrainage hole 21 is communicated with the top surface of the boss 1, the aperture of the top port of thedrainage hole 21 is consistent with the outer diameter of therubber ring block 16, and thesuction tube 15 is convenient to slide and insert into the top port of thedrainage hole 21 through therubber ring block 16.

When the inoculation device is used, as the whole body starts to operate and use after being debugged for many times by professional installers, firstly, every three inoculation bottles of an operator are placed on thesecond conveyor belt 5 in a group at equal intervals and operate discontinuously under the action of controlling thesecond conveyor belt 5 by corresponding control equipment, so that the three inoculation bottles of each group are favorably transferred to thefirst conveyor belt 2 and are positioned in the range of the area to be injected with the strain liquid, meanwhile, the inoculation bottles injected with the strain liquid can be transferred to the bearing structure at one side to be transferred, and the continuity of inoculation of the subsequent strain liquid injection is ensured;

when the top ports of the group of three inoculation bottles are positioned at the bottom of the corresponding side in the T-shaped frame 4, the ports at the bottom of the threesuction cylinders 15 positioned at the same side push therectangular carrier plate 14 to move downwards and slide to be inserted into the ports at the top of thedrainage holes 21 corresponding to the upper part and the lower part of the same side under the action of the startedfirst air cylinder 6 to form a closed suction space, then the startedsecond air cylinder 10 is in a contraction state to drive the threepiston rods 25 at the same side connected by thetraction plate 17 to move upwards and suck the bacterial liquid in the communicatedbacterial liquid chamber 20 into thesuction cylinders 15 according to the principle of an injector, meanwhile, the threesuction cylinders 15 at the other side are alternately filled with the bacterial liquid in the manner and extend into the ports of the corresponding three inoculation bottles on thefirst conveyor belt 2 under the action of the correspondingly startedsecond air cylinder 10 to inject the bacterial liquid, so as to realize the functions of sucking, discharging and injecting the, the inoculation efficiency can be improved by the alternate operation mode of the two suction and discharge structures, and the strain liquid can be conveniently injected into the three inoculation bottles at one time;

in the process of carrying out above-mentioned fungus liquid of infusing in turn, start simultaneously and drivelong screw 8 with corresponding controlgear electric connection'sfirst motor 13 operation and do corresponding rotation and drive two continuoussquare bar pieces 9 along the regular reciprocating motion oflong screw 8 under the interact of power, reach the effect that drives the part that is connected and reciprocating motion simultaneously, thereby realized providing drive power's function for infusing fungus liquid structure in turn, production efficiency has been improved, it is located thefungus liquid chamber 20stirring board 24 board slow rotation to drive through thesecond motor 19 of operation simultaneously, guarantee that the bacterial is in the mobile state all the time, avoid appearing the sedimentary condition.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A system for producing a biological amino acid, comprising: the bottle body conveying device comprises a boss (1), a strain leading-out mechanism, a strain suction mechanism, a reciprocating mechanism and a bottle body conveying mechanism, wherein strip-shaped grooves (3) are formed in the adjacent surfaces of two sides of a lug structure on the top of the boss (1), and one end of a convex side plate of a T-shaped frame (4) is mounted on the top of the boss (1); the strain leading-out mechanism comprises a strain liquid chamber (20) and a drainage tube (23), the strain liquid chamber (20) is arranged inside the boss (1), three stirring plates (24) are rotatably arranged at the bottom in the strain liquid chamber (20), one ends of rotating connecting shafts at the bottoms of the three stirring plates (24) are arranged at one ends of shaft rods of corresponding second motors (19), a check valve (22) is arranged on the inner side of the top of the drainage tube (23), and ports at the top of the drainage tube (23) are arranged on ports at the bottom of corresponding drainage holes (21);

the strain suction mechanism comprises a suction tube (15) and a second cylinder (10), a piston rod (25) is arranged in the suction tube (15) in a sliding mode, one end of the piston rod (25) penetrates through the top surface of the rectangular support plate (14), a rubber ring block (16) is sleeved at the bottom end opening of the suction tube (15), the second cylinder (10) is arranged in the middle of a transverse plate of the corresponding L-shaped plate (11), one end of a push rod of the second cylinder (10) is fixedly connected with one end of the piston rod (25) through a pulling plate (17), and the two L-shaped plates (11) are symmetrically arranged on two sides of the top surface of the rectangular support plate (14);

the reciprocating mechanism comprises two long screw rods (8), the inner sides of two ends of the two long screw rods (8) are rotatably provided with square plates (7), the square plates (7) positioned on the same long screw rod (8) are arranged on the tops of corresponding side walls in the T-shaped frame (4), two square bar blocks (9) are connected between the two long screw rods (8) in a threaded mode at intervals, a first air cylinder (6) is arranged in the middle of the bottom of each square bar block (9), and the middle of the edges of two sides of the top of the rectangular support plate (14) is arranged at the push rod end of each first air cylinder (6);

the bottle body conveying mechanism comprises a first conveying belt (2), the first conveying belt (2) is installed in a strip-shaped groove (3), one end of a conveying frame is installed on the surface of a boss (1) on the outer side of the strip-shaped groove (3), a second conveying belt (5) is installed in the conveying frame, and the second conveying belt (5) and one side of the first conveying belt (2) are in a mutually vertical position relation;

drainage hole (21) are equipped with three groups, and three groups drainage hole (21) are abreast the equidistance and are opened in fungus liquid chamber (20) roof intermediate position, every group two drainage hole (21) top port inboard communicates each other.

2. A system for the production of a biological amino acid according to claim 1, wherein: suction tube (15) are equipped with three groups, and three groups suction tube (15) are parallel the equidistance and are installed in rectangle support plate (14) bottom both sides, every group two suction tube (15) are located L template (11) bottom space that corresponds respectively, and two suction tube (15) are located same perpendicular with a set of two drainage holes (21) that correspond.

3. A system for the production of a biological amino acid according to claim 1, wherein: threaded holes are formed in two ends of each square strip block (9), two ends of each square strip block (9) are fixedly connected through thin rods, end faces of two ends of each square strip block (9) are connected with a bar-shaped sliding groove (12) on the same side in a sliding mode through sliding blocks (18), and the bar-shaped sliding grooves (12) are formed in the inner wall of a T-shaped frame (4) between the two corresponding square plates (7) respectively.

4. A system for the production of a biological amino acid according to claim 1, wherein: the conveying frame is provided with two, and two conveying frame symmetry is installed at boss (1) both sides surface, the conveying frame other end is located the concentrated department of waiting to put of inoculation fungus bottle, and conveying frame top surface and first conveyer belt (2) top surface, second conveyer belt (5) top surface and boss structure both sides adjacent surface at boss (1) top are located same horizontal plane.

5. A system for the production of a biological amino acid according to claim 1, wherein: one end of the long screw (8) is arranged at one end of the shaft rod of the corresponding first motor (13), and the first motor (13) is arranged on the side surface of the square plate (7) at one end of the same long screw (8).

6. A system for the production of a biological amino acid according to claim 1, wherein: the second motor (19) is installed in a groove in the bottom of the boss (1), and the second motor (19) and the first motor (13) are electrically connected with external control equipment and a power supply through electric leads.

7. A system for the production of a biological amino acid according to claim 1, wherein: the first air cylinder (6) and the second air cylinder (10) are connected with the corresponding pneumatic controller and the corresponding air pump through hoses, and the two second air cylinders (10) are located between the two first air cylinders (6).

8. A system for the production of a biological amino acid according to claim 1, wherein: the fungus liquid chamber (20) is filled with fungus liquid, and the fungus liquid chamber (20) is communicated with an external container filled with fungus through a conduit.

9. A system for the production of a biological amino acid according to claim 1, wherein: the top port of the drainage hole (21) is communicated with the top surface of the boss (1), and the aperture of the top port of the drainage hole (21) is consistent with the outer diameter of the rubber ring block (16).

Images