CN111185400B - Bagasse degradation strain culture medium intelligent screening device - Google Patents

Abstract

The invention discloses an intelligent screening device for bagasse degrading strain culture media, which comprises a supporting and fixing rod, an inclined blanking plate, a vibrator, a fixing plate and a workbench, wherein the upper part of the supporting and fixing rod is connected with the two side positions of the inclined blanking plate, the vibrator is arranged at the bottom of the lower part of the inclined blanking plate, the upper part of the supporting and fixing rod is fixedly installed with the fixing plate, a blanking groove is embedded in the upper surface of the inclined blanking plate, and a reserved groove is arranged below the top end of the blanking groove. This bagasse degradation strain culture medium intelligence sieving mechanism, when using, the fixed point propelling movement work that carries out the purpose strain culture medium that whole device can be automatic, guarantee that whole device can once only place work to a large amount of culture mediums when detecting, follow-up fixed point propelling movement work that can carry out the culture medium voluntarily to and the classification work that carries out each bacterial strain that the culture medium after the detection can be automatic, and the phenomenon that the error can not appear takes place.

Description

Bagasse degradation strain culture medium intelligent screening device

Technical Field

The invention relates to the technical field of bagasse, in particular to an intelligent screening device for a bagasse degrading strain culture medium.

Background

The degrading strain can completely mineralize and degrade organic pesticides into nontoxic components through various metabolic ways, plays a key role in-situ pesticide pollution removal and ecological environment purification and membrane release, microorganisms are degraded in the existing market and are considered to be the green, environment-friendly, efficient, low-cost and most potential organic pesticide removal way, the separation and screening of efficient organic pesticide degrading bacteria are effective measures for reducing pesticide residues, controlling pollution and bioremediation, a large number of degrading strains exist in bagasse, therefore, a screening device is required to be used for ensuring the extraction of the degrading strains, the general screening device in the existing market is to place the target strains in a culture medium for proper environmental strain growth for culture, and the screening effect of the target strains is completed through the observation of hydrolysis rings, growth rings, inhibition rings and the like of a detection head, the screening devices on the existing market are various in types and quantity, but have problems when being used:

1. the traditional screening device detects through the detection head, and needs workers to manually take and place the culture medium of the target strain, so that the phenomenon of taking by mistake can occur when the workers manually take the culture medium, and a large amount of time can be consumed when different strains are manually classified;

2. simultaneously when carrying out the purpose bacterial strain culture medium and placing, can not be automatic carry out the detection work with the below of target bacterial strain propelling movement to detecting the head, still need the manual work to place the work, the manual work just can consume a large amount of time when carrying out culture medium and singly taking and placing, consequently for whole sieving mechanism's work efficiency is very low, consequently, in order to solve above-mentioned problem, we just provide a bagasse degradation bacterial strain culture medium intelligence sieving mechanism who conveniently just solves above-mentioned problem.

Disclosure of Invention

The invention aims to provide an intelligent screening device for a bagasse degrading strain culture medium, which is used for solving the problem that the intelligent screening device for the bagasse degrading strain culture medium cannot automatically complete the pushing detection work and the detection classification work of target strains when screening.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent screening device for bagasse degrading strain culture media comprises a supporting and fixing rod, an inclined blanking plate, a vibrator, a fixing plate and a workbench, wherein the upper portion of the supporting and fixing rod is connected with the positions of the two sides of the inclined blanking plate, the vibrator is arranged at the bottom of the lower portion of the inclined blanking plate, the upper portion of the supporting and fixing rod is fixedly mounted on the fixing plate, the workbench is integrally mounted at the middle position of the fixing plate, a baffle is integrally mounted at the upper portion of the workbench, a motor is mounted on a top bolt of the baffle, a detection head is mounted at the lower portion of the inner portion of the baffle, a material pushing groove is embedded in the right side of the upper portion of the workbench, a rotary groove embedded in the workbench is further arranged at the top end of the material pushing groove, the top end of the rotary groove penetrates through a selection groove, the selection groove is arranged at the top end of the workbench, the inside block of swivelling chute is provided with the sliding block, and the top an organic whole of sliding block installs the connecting rod to the top of connecting rod is connected with the rotary rod, and the top intermediate position of rotary rod is connected with the below output of motor simultaneously, the top surface mosaic of flitch has lower silo down in the slope, and the top below of silo down is provided with the reservation tank, and the inside in reservation tank is connected with the vibrations piece through the fixed block, the top setting of vibrations piece is in the reservation tank of selecting inslot portion.

Preferably, 3 blanking troughs are arranged above the inclined blanking plate at equal intervals, the position of the inclined blanking plate corresponds to that of the workbench, and the width of the workbench is the same as that of the inclined blanking plate.

Preferably, the number and the positions of the blanking grooves correspond to those of the selection grooves, and the insides of the blanking grooves are smooth planes.

Preferably, the rotary groove is arranged in a circular structure, the position above the rotary groove is mutually penetrated through the material pushing groove, and the top end of the rotary groove is mutually penetrated through the selection groove.

Preferably, the cross section size of pushing away the silo equals with the cross section size of swivelling chute, and the swivelling chute setting is in the outside position of 3 optional grooves to the inside top that pushes away the silo is connected with the push pedal through reset spring, and overlooking of push pedal is convex structure setting simultaneously.

Preferably, the reserved groove is arranged at the top end of the discharging groove and the top end of the selecting groove, the highest point of the reserved groove and the bottoms of the discharging groove and the selecting groove are in the same straight line, and the gap between the vibration block in the reserved groove and the selecting groove is larger than zero.

Preferably, be an organic whole structure between connecting rod and the sliding block, and the sliding block is revolution mechanic under the effect of rotary rod.

Preferably, the bottom of sliding block is provided with the gyro wheel, and the back connection of sliding block has the extension piece to the extension piece is the arc structure setting, and with the size of a dimension of extension piece identical with the size of a dimension of swivelling chute, sliding block groove cross-section is "L" shape structure setting.

Compared with the prior art, the invention has the beneficial effects that: when the intelligent screening device for the bagasse degrading strain culture medium is used, the whole device can automatically carry out fixed-point pushing work on a target strain culture medium, the whole device can be ensured to carry out placing work on a large amount of culture media at one time when detection is carried out, the fixed-point pushing work on the culture media can be automatically carried out subsequently, the detected culture media can automatically carry out classification work on each strain, and the phenomenon of error is avoided;

1. the reset spring and the push plate in the push trough can well place a target culture medium in front of the push plate, and the push plate is matched with the mutual penetration work of the push trough and the rotary trough through the pushing work of the reset spring, so that the whole push plate can directly push the culture medium at the top end of the push plate to the top end position of the push trough, the effect of detecting strains in the culture medium at the top end can be achieved through the arrangement of the detection head, and meanwhile, the effect of automatic pushing detection can be achieved;

2. push away the top of silo and run through each other of swivelling chute, make the rotary rod of swivelling chute top can make the sliding block that the bottom connecting rod is connected promote the inside that the culture medium reachs each optional groove after detecting in rotatory, the inside of the culture medium vibrations that will arrive on the suitable position through vibrations that the setting of the inside vibrations piece of cooperation optional groove can be fine is to the inside of the lower silo on corresponding the position, the setting of the lower silo that the cooperation slope form set up alright place in order to make the culture medium after categorised, mixed and disorderly phenomenon still can not appear simultaneously, do not need staff's number manual operation, make the work efficiency of whole device very high.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the worktable according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 2 according to the present invention;

FIG. 5 is a side view of the slider of the present invention;

FIG. 6 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

fig. 7 is a schematic sectional view of the feeding chute and the rotary chute of the present invention.

In the figure: 1. supporting the fixed rod; 2. inclining the blanking plate; 3. a vibrator; 4. a fixing plate; 5. a baffle plate; 6. a motor; 7. a detection head; 8. a work table; 9. a discharging groove; 10. a rotating tank; 11. a material pushing groove; 12. reserving a groove; 13. rotating the rod; 14. a connecting rod; 15. a fixed block; 16. a slider; 1601. a roller; 1602. a lengthening block; 17. pushing the plate; 18. a return spring; 19. selecting a groove; 20. and a vibration block.

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: an intelligent screening device for bagasse degrading strain culture medium, which comprises a supporting fixed rod 1, an inclined blanking plate 2, a vibrator 3, a fixed plate 4, a baffle plate 5, a motor 6, a detection head 7, a workbench 8, a blanking groove 9, a rotary groove 10, a material pushing groove 11, a reserved groove 12, a rotary rod 13, a connecting rod 14, a fixed block 15, a sliding block 16, a push plate 17, a reset spring 18, a selection groove 19 and a vibration block 20, wherein the upper part of the supporting fixed rod 1 is connected with two side positions of the inclined blanking plate 2, the lower bottom part of the inclined blanking plate 2 is provided with the vibrator 3, the upper part of the supporting fixed rod 1 is fixedly installed with the fixed plate 4, the middle position of the fixed plate 4 is integrally provided with the workbench 8, the upper part of the workbench 8 is integrally provided with the baffle plate 5, the top bolt of the baffle plate 5 is provided with the motor 6, and the detection head 7 is installed at the lower position in the baffle plate 5, the top right side position of workstation 8 is inlayed and is had push away silo 11, and the top position that pushes away silo 11 still is provided with the swivelling chute 10 of inlaying on workstation 8, and the top and the optional groove 19 of swivelling chute 10 run through each other, optional groove 19 sets up the top position at workstation 8, the inside block of swivelling chute 10 is provided with sliding block 16, and sliding block 16's top an organic whole installs connecting rod 14, and the top of connecting rod 14 is connected with rotary rod 13, the top intermediate position of rotary rod 13 is connected with motor 6's below output simultaneously, the top surface of slope lower feed plate 2 is inlayed and is had lower silo 9, and the top below of lower silo 9 is provided with reserve groove 12, and the inside of reserve groove 12 is connected with vibrations piece 20 through fixed block 15, the top setting of vibrations piece 20 is in the reserve groove 12 of optional groove 19 inside.

The top of flitch 2 is equidistant under the slope is provided with 3 silo 9 down, and the position of flitch 2 under the slope corresponds each other with the position of workstation 8 to the width of workstation 8 is the same with the width of flitch 2 under the slope, makes workstation 8 can carry out butt joint work with flitch 2 under the slope, guarantees that the culture medium after the detection can carry out the whereabouts work under the effect of flitch 2 under the slope on workstation 8.

The number and the positions of the feed chutes 9 correspond to those of the selection chutes 19, and the interiors of the feed chutes 9 are smooth planes, so that the culture medium respectively reaching the interiors of the selection chutes 19 can reach the interiors of the corresponding feed chutes 9 at fixed points.

The rotary groove 10 is arranged in a circular structure, the upper part of the rotary groove 10 is mutually penetrated through the material pushing groove 11, and the top end of the rotary groove 10 is mutually penetrated through the selection groove 19, so that the culture medium in the rotary groove 10 can reach the interior of the selection groove 19.

The cross section size of pushing away silo 11 equals with the cross section size of swivelling chute 10, and swivelling chute 10 sets up the outside position at 3 optional grooves 19 to the inside top of pushing away silo 11 is connected with push pedal 17 through reset spring 18, and overlooking of push pedal 17 is the setting of convex structure simultaneously, guarantees to carry out the work of placing of a plurality of culture mediums inside pushing away silo 11, and the fixed point propelling movement work of completion culture medium that cooperation reset spring 18 and push pedal 17 set up can be continuous.

The preformed groove 12 is arranged at the top end of the discharging groove 9 and the top end of the selecting groove 19, the highest point of the preformed groove 12 is in the same straight line with the bottoms of the discharging groove 9 and the selecting groove 19, and the gap between the vibration block 20 inside the preformed groove 12 and the selecting groove 19 is larger than zero, so that the vibration block 20 can vibrate along with the inclined discharging plate 2, the vibration of the culture medium reaching the inside of the selecting groove 19 under the action of the vibration block 20 is guaranteed, and the culture medium can reach the inside of the discharging groove 9.

Connecting rod 14 and sliding block 16 are structure as an organic whole between, and sliding block 16 is revolution mechanic under the effect of rotary rod 13, sliding block 16's bottom is provided with gyro wheel 1601, and sliding block 16's back is connected with extension block 1602, and extension block 1602 is the arc structure setting, and the size of a dimension of extension block 1602 is identical with the size of a dimension of swivelling chute 10 simultaneously, and sliding block 16 groove cross-section is "L" shape structure setting, guarantees that sliding block 16 can promote the culture medium and remove when rotatory, arrives and removes the position of suitable selection groove 19 with the culture medium.

The working principle is as follows: according to the figure 1, the whole device is placed at a proper position, then the whole device is fixed in position under the action of the bottom supporting fixing rod 1, then the whole device is connected with an external power supply, the whole device can be used, before the device is used, according to the figures 2 and 6, a worker needs to move the push plate 17 outwards in the pushing groove 11, so that the push plate 17 extrudes the return spring 18, then each culture medium is placed at the top end position of the push plate 17, therefore, the installation work of the culture medium is completed, when the culture medium is installed, because the length of the return spring 18 is greater than two thirds of the length of the push plate 17, the push plate 17 can push the culture medium at the top end to the top end position of the pushing groove 11 under the action of the return spring 18 and then is positioned in the rotating groove 10, then, as shown in fig. 1, the vibrator 3 at the bottom of the inclined blanking plate 2 is started, and the whole device can be screened;

during screening, because the culture medium can be always positioned inside the rotary groove 10 at the top end inside the material pushing groove 11 under the action of the return spring 18 and the push plate 17, and then can be detected by the detection head 7 at the top end of the baffle plate 5, so as to complete detection work on the culture medium, after the detection is completed, according to the figure 2 and the figure 4-6, the motor 6 is started, so that the motor 6 drives the rotary rod 13 at the top end to rotate, the rotary rod 13 rotates, through the arrangement of the connecting rod 14, the sliding block 16 connected at the bottom of the rotary rod can rotate inside the rotary groove 10, when the sliding block 16 rotates, the sliding of the culture medium existing inside the rotary groove 10 can be pushed, and further, the culture medium after the detection is also slid inside the rotary groove 10 and reaches the positions of different selection grooves 19, and after the culture medium reaches a proper position, controlling the motor 6 to make the rotating rod 13 rotate reversely to the initial position, and because of the "L" shaped structure of the sliding block 16, the sliding block 16 will separate from the culture medium just contacted when returning to the initial position, and the culture medium just detected inside the rotating groove 10 will stay on the vibrating block 20 on the designated selection groove 19, then, as shown in fig. 2-3 and fig. 7, because the vibrating block 20 is connected with the reserved groove 12 inside the inclined feeding plate 2, therefore, the inclined feeding plate 2 will vibrate the vibrating block 20 during the vibration process, and when the vibrating block 20 vibrates, the culture medium on the vibrating block 20 will vibrate inside the feeding groove 9 on the inclined feeding plate 2, and the detected culture medium feeding work can be well completed by matching with the inclined structure of the feeding groove 9, and then, the above work is repeated, the push plate 17 pushes another culture medium to the inside of the rotary tank 10 again, so that the selective falling work of the culture medium can be completed again under the action of the sliding block 16, and the whole strain screening work can be completed by continuously repeating the above work.

It is to be understood that the terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the figures to facilitate a simplified description of the present invention, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be considered as limiting the scope of the present invention. Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a bagasse degradation strain culture medium intelligence sieving mechanism, includes support dead lever (1), slope blanking plate (2), electromagnetic shaker (3), fixed plate (4) and workstation (8), its characterized in that: the upper part of the supporting and fixing rod (1) is connected with the two side positions of the inclined blanking plate (2), the lower bottom position of the inclined blanking plate (2) is provided with a vibrator (3), the upper position of the supporting and fixing rod (1) is fixedly installed with the fixing plate (4), the middle position of the fixing plate (4) is integrally provided with a workbench (8), the upper position of the workbench (8) is integrally provided with a baffle (5), a top bolt of the baffle (5) is provided with a motor (6), meanwhile, the inner lower position of the baffle (5) is provided with a detection head (7), the upper right side position of the workbench (8) is embedded with a material pushing groove (11), the top end position of the material pushing groove (11) is also provided with a rotary groove (10) embedded on the workbench (8), and the top end of the rotary groove (10) is mutually penetrated through with a selection groove (19), select top position of groove (19) setting at workstation (8), the inside block of swivelling chute (10) is provided with sliding block (16), and the top an organic whole of sliding block (16) installs connecting rod (14) to the top of connecting rod (14) is connected with rotary rod (13), and the top intermediate position of rotary rod (13) is connected with the below output of motor (6) simultaneously, the top surface of flitch (2) inlays down and has silo (9) down in the slope, and is provided with reserve groove (12) below the top of silo (9) down, and is connected with vibrations piece (20) through fixed block (15) in the inside of reserve groove (12), the top setting of vibrations piece (20) is in reserve groove (12) of selecting groove (19) inside.

2. The bagasse degrading strain culture medium intelligent screening device according to claim 1, characterized in that: the upper portion of the inclined blanking plate (2) is provided with 3 blanking grooves (9) at equal intervals, the position of the inclined blanking plate (2) corresponds to that of the workbench (8), and the width of the workbench (8) is the same as that of the inclined blanking plate (2).

3. The bagasse degrading strain culture medium intelligent screening device according to claim 1, characterized in that: the number and the positions of the blanking grooves (9) correspond to those of the selection grooves (19), and the insides of the blanking grooves (9) are smooth planes.

4. The bagasse degrading strain culture medium intelligent screening device according to claim 1, characterized in that: the rotary groove (10) is arranged in a circular structure, the upper position of the rotary groove (10) is mutually penetrated through the material pushing groove (11), and the top end of the rotary groove (10) is mutually penetrated through the selection groove (19).

5. The bagasse degrading strain culture medium intelligent screening device according to claim 1, characterized in that: the cross section size of pushing away silo (11) equals with the cross section size of swivelling chute (10), and swivelling chute (10) set up the outside position in 3 optional grooves (19) to push away the inside top of silo (11) and be connected with push pedal (17) through reset spring (18), push pedal (17) look down simultaneously and be convex structure setting.

6. The bagasse degrading strain culture medium intelligent screening device according to claim 1, characterized in that: the top positions of the reserved groove (12) at the discharging groove (9), the selecting groove (19) and the rotating groove (10) are all arranged, the highest point of the reserved groove (12) is on the same straight line with the bottoms of the discharging groove (9), the selecting groove (19) and the rotating groove (10), a gap between the vibration block (20) inside the reserved groove (12) and the selecting groove (19) is larger than zero, and the top end of the vibration block (20) is arranged at the bottom of the rotating groove (10).

7. The bagasse degrading strain culture medium intelligent screening device according to claim 1, characterized in that: the connecting rod (14) and the sliding block (16) are of an integral structure, and the sliding block (16) is of a rotating structure under the action of the rotating rod (13).

8. A bagasse degrading strain culture medium intelligent screening device according to claim 7, characterized in that: the bottom of sliding block (16) is provided with gyro wheel (1601), and the back connection of sliding block (16) has extension block (1602) to extension block (1602) are the arc structure setting, and with the size of a dimension of extension block (1602) identical with the size of a dimension of swivelling chute (10), sliding block (16) groove cross-section is "L" shape structure setting.

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