CN112354654A

CN112354654A - Microbial cultivation soil mixing arrangement for bioengineering

Info

Publication number: CN112354654A
Application number: CN202011283604.3A
Authority: CN
Inventors: 黎汉达
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2021-02-12

Abstract

The invention discloses a microorganism culture soil mixing device for bioengineering, which comprises a support frame, a motor, a mixing box, a mounting seat, a screen and a mixing rod arranged on a rotating shaft I, wherein a U-shaped groove is formed in the screen, the length of the U-shaped groove is equal to that of the screen, a plurality of discharging holes are formed in the bottom wall of the U-shaped groove, a sliding structure is arranged between the screen and the mixing box, a lifting structure is arranged between the rotating shaft I and the screen, a plurality of rod bodies II are fixedly arranged on the screen, and a magnet I is fixedly arranged at the upper end of each rod body II. Has the advantages that: the screen mesh can generate a reciprocating movement effect in the vertical direction without an additional power source, so that the screening operation of the culture soil is facilitated, and the screening cost is relatively low; meanwhile, under the matching of the crushing structure, a crushing effect can be generated on the large piece of culture soil below the screen mesh, so that the large piece of culture soil can be conveniently and normally used.

Description

Microbial cultivation soil mixing arrangement for bioengineering

Technical Field

The invention relates to the technical field of microbial culture, in particular to a microbial culture soil mixing device for bioengineering.

Background

The culture of the microorganism is carried out on the microorganism culture soil, the microorganism culture soil is used as a substrate for culture, but in the specific use, the culture soil stored and placed is only taken out for carrying out artificial simple kneading and crushing operation, the operation is inconvenient, and a plurality of large blocks of culture soil still exist.

When the culture soil is used, the culture soil is not treated and is directly taken out for use, but the culture soil is caked due to the storage and placement problem in many times, and the subsequent microbial culture is influenced by direct use.

The patent number CN108456626B of the invention of China's grant discloses a swing arm type microorganism culture soil mixing device for biological engineering, which comprises a device body, wherein a support frame is arranged at the bottom of the device body, a mixing chamber is arranged above the support frame, a blanking hopper is arranged above the mixing chamber, the device body is provided with a main motor, the output end of the main motor is provided with a rotating shaft, the outer wall of the rotating shaft is provided with a stirring shaft, and a screen is arranged in the mixing chamber.

The mixing device has the following two defects:

1. the screening operation cost of the screen is relatively high, and an additional driving motor is also needed as a power source;

2. and the large culture soil remained after screening is effectively treated, and the problem of agglomeration is only caused by changing partial culture soil, so that the requirement of culture is still met.

Disclosure of Invention

The invention aims to solve the problems in the background technology and provides a microorganism culture soil mixing device for bioengineering.

In order to achieve the purpose, the invention adopts the following technical scheme:

a mixing device for microorganism culture soil for bioengineering comprises a support frame, a motor, a mixing box, a support seat, a screen and a mixing rod arranged on a first rotating shaft, wherein a U-shaped groove is formed in the screen, the length of the U-shaped groove is equal to that of the screen, and a plurality of discharging holes are formed in the bottom wall of the U-shaped groove;

a sliding structure is arranged between the screen and the mixing box;

a lifting structure is arranged between the first rotating shaft and the screen;

a plurality of second rod bodies are fixedly arranged on the screen, a first magnet is fixedly arranged at the upper end of each second rod body, a plurality of second magnets are fixedly arranged on the top wall of the mixing box, and the magnetism of one side, close to the corresponding second magnets, of each first magnet is the same as that of one side, close to the corresponding second magnets, of each second magnet;

a crushing structure is arranged between the mixing box and the screen.

In foretell a microbial cultivation soil mixing arrangement for bioengineering, sliding structure comprises four spacing grooves and four sliders, all set up two spacing grooves, four on the inner wall around the mixing box equal slidable mounting has a slider in the spacing groove, and the slider is kept away from the one end and the screen cloth fixed connection of spacing groove.

In foretell a bioengineering is with microorganism culture soil mixing arrangement, elevation structure comprises a pivot two, a helical gear one, a helical gear two, two magnetic rings and two magnetic paths, the pivot two is installed to the mixing box internal rotation, fixed mounting has a helical gear two and two magnetic rings on the pivot two, and the magnetic ring comprises two arc magnetic paths, and two arc magnetic paths keep away from the magnetism of lateral surface opposite mutually, fixed mounting has the helical gear one with the meshing of helical gear two on the pivot one, the lower fixed surface of screen cloth installs two magnetic paths that cooperate with the magnetic ring.

In foretell for bioengineering microorganism culture soil mixing arrangement, the lower surface of supporting seat has an arc cover body through two body of rod one fixed mounting, and helical gear one, helical gear two all are located the below of the arc cover body.

In foretell a microbial cultivation soil mixing arrangement for bioengineering, broken structure comprises gear, lifter plate one, blind hole, sliding seat, stripper plate and lifter plate two, sets up slotted one, groove two and blind hole on the mixing box, and groove two is linked together with groove one and blind hole simultaneously, the gear is installed to an inslot internal rotation, slidable mounting has lifter plate one in the groove two, and lifter plate one meshes with the gear mutually, and one side and the screen cloth fixed connection that the gear was kept away from to lifter plate one is located left two equal slidable mounting has a sliding seat, two on the body of rod two the common fixed mounting of sliding seat has a stripper plate, the stripper plate passes through a lever bracket fixed mounting and has a lifter plate two, and the lifter plate is two in the outside of mixing box, and lifter plate two meshes with the gear mutually.

In foretell a microbial cultivation soil mixing arrangement for bioengineering, broken structure comprises broken needle, connecting block, scraper blade and mount pad, is located left two equal fixed mounting has a connecting block, two on the two pole bodies fixed mounting has a scraper blade between the connecting block, fixed mounting has the mount pad in the mixing box, and fixed mounting has a plurality of broken needles on the mount pad, and broken needle slides and runs through the scraper blade.

Compared with the prior art, the invention has the advantages that:

1: the screen mesh can be moved to and fro in a vertical direction without an additional power source, so that the culture soil can be conveniently screened, and the screening cost is relatively low.

2: the speed of the screen moving downwards can be increased under the matching of the first magnet and the second magnet, so that the screening effect is improved.

3: the arrangement of the crushing structure can generate a crushing effect on the large culture soil below the screen mesh, so that the large culture soil can be conveniently and normally used.

Drawings

FIG. 1 is a schematic structural view of a microorganism culture soil mixing device for bioengineering according to the present invention;

FIG. 2 is an enlarged view of the structure of part A in FIG. 1;

FIG. 3 is an enlarged view of the structure of part B in FIG. 1;

FIG. 4 is an enlarged view of the structure of the portion C in FIG. 1;

FIG. 5 is a schematic structural view of another embodiment of a microorganism culture soil mixing device for bioengineering according to the present invention;

FIG. 6 is an enlarged view of the structure of portion D in FIG. 5;

FIG. 7 is an enlarged view of the structure of portion E in FIG. 5;

in the figure: the device comprises a support frame 1, a motor 2, a mixing box 3, a mixing rod 4, a mounting seat 5, a screen 6, a rotating shaft II 7, a bevel gear I8, a bevel gear II 9, a magnetic ring 10, a rod I11, an arc cover 12, a limiting groove 13, a sliding block 14, a rod II 15, a magnet I16, a magnet II 17, a gear 18, a lifting plate I19, a blind hole 20, a sliding seat 21, a squeezing plate 22, a lifting plate II 23, a crushing pin 24, a connecting block 25, a scraping plate 26, a rotating shaft I27 and a mounting seat 28.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all 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.

Example one

Referring to fig. 1-4, a microorganism culture soil mixing device for bioengineering, comprising a support frame 1, a motor 2, a mixing box 3, a support base 5, a screen 6 and a mixing rod 4 arranged on a first rotating shaft 27, wherein the screen 6 is provided with a U-shaped groove;

the above is noteworthy for the following two points:

1. the screen 6 is arranged obliquely, see in particular fig. 1.

2. The length in U-shaped groove equals the length of screen cloth 6, and has seted up a plurality of unloading holes on the diapire in U-shaped groove to when making the soil for cultivating sieve on screen cloth 6, shine the difficult adhesion of soil and be located on the inner wall of mixing box 3 of screen cloth 6 top.

A sliding structure is arranged between the screen 6 and the mixing box 3;

the above is noteworthy: sliding construction comprises four spacing grooves 13 and four sliders 14, has all seted up two spacing grooves 13 on the inner wall around the mixing box 3, and equal slidable mounting has a slider 14 in four spacing grooves 13, and slider 14 keeps away from the one end and the screen cloth 6 fixed connection of spacing groove 13.

A lifting structure is arranged between the first rotating shaft 27 and the screen 6;

the following points are notable:

1. the lifting structure comprises a rotating shaft II 7, a helical gear I8, a helical gear II 9, two magnetic rings 10 and two magnetic blocks, the rotating shaft II 7 is rotatably installed in the mixing box 3, the helical gear II 9 and the two magnetic rings 10 are fixedly installed on the rotating shaft II 7, the helical gear I8 meshed with the helical gear II 9 is fixedly installed on the rotating shaft I27, and the two magnetic blocks matched with the magnetic rings 10 are fixedly installed on the lower surface of the screen 6.

2. The magnetic ring 10 consists of two arc-shaped magnetic blocks, and the magnetism of the two arc-shaped magnetic blocks far away from the outer side surface is opposite; so that the magnetic ring 10 rotates a circle to drive the magnetic block to move back and forth in the vertical direction, and the culture soil in the screen 6 is screened by the quick movement.

3. An arc-shaped cover body 12 is fixedly arranged on the lower surface of the supporting seat 5 through two rod bodies I11, and the bevel gear I8 and the bevel gear II 9 are both positioned below the arc-shaped cover body 12; the arc-shaped cover body 12 has a certain isolation effect on the first helical gear 8 and the second helical gear 9, so that more culture soil is prevented from being adhered to the arc-shaped cover body 12 in the screening process.

A plurality of second rod bodies 15 are fixedly arranged on the screen 6, a first magnet 16 is fixedly arranged at the upper end of each second rod body 15, a plurality of second magnets 17 are fixedly arranged on the top wall of the mixing box 3, and the magnetism of one side, close to each second magnet 17, of each first magnet 16 is the same as that of one side, close to each corresponding second magnet 17, of each second magnet 17; this section is provided to increase the speed at which the screen 6 moves down, thereby improving the screening effect.

A crushing structure is arranged between the mixing box 3 and the screen 6;

the above is noteworthy: the crushing structure is composed of a gear 18, a first lifting plate 19, a blind hole 20, sliding seats 21, an extrusion plate 22 and a second lifting plate 23, a first groove, a second groove and the blind hole 20 are formed in the mixing box 3, the second groove is communicated with the first groove and the blind hole 20 at the same time, the gear 18 is installed in the first groove in a rotating mode, the first lifting plate 19 is installed in the second groove in a sliding mode, the first lifting plate 19 is meshed with the gear 18, one side, far away from the gear 18, of the first lifting plate 19 is fixedly connected with the screen 6, the sliding seats 21 are installed on the two left rod bodies 15 in a sliding mode, the two sliding seats 21 are fixedly installed with the extrusion plate 22 together, the extrusion plate 22 is fixedly installed with the second lifting plate 23 through a rod frame, the second lifting plate 23 is located outside the mixing box 3, and the second lifting plate 23 is meshed.

The motor 2 works to drive the mixing rod 4 to generate a mixing effect on culture soil in the mixing box 3 through the rotating shaft I27, the rotating shaft I27 rotates to drive the rotating shaft II 7 to rotate through the matching of the bevel gear I8 and the bevel gear II 9, the rotating shaft II 7 rotates to drive the magnetic ring 10 to rotate, and the magnetic ring 10 rotates to generate a reciprocating movement effect in the vertical direction on the screen 6, so that the screening effect on the culture soil in the screen 6 is achieved;

meanwhile, the screen 6 moves upwards to drive the first lifting plate 19 to move upwards, the first lifting plate 19 moves upwards to drive the gear 18 to rotate anticlockwise, the gear 18 rotates anticlockwise to drive the second lifting plate 23 to move downwards, the second lifting plate 23 moves downwards to drive the extrusion plate 22 to move downwards through the rod frame, the extrusion plate 22 moves downwards to be in contact with the large culture soil moving upwards along with the screen 6, a crushing effect is generated on the opened culture soil, and the culture soil is better crushed and sieved.

Example two

Referring to fig. 5 to 7, the present embodiment is different from the first embodiment in that: broken structure comprises broken needle 24, connecting block 25, scraper blade 26 and mount pad 28, is located equal fixed mounting on two left body of rod two 15 and has a connecting block 25, and fixed mounting has a scraper blade 26 between two connecting blocks 25, and fixed mounting has mount pad 28 in the mixing box 3, and fixed mounting has a plurality of broken needles 24 on the mount pad 28, and broken needle 24 slides and runs through scraper blade 26.

The advantages of the second embodiment over the first embodiment are: the big piece of culture soil can contact with crushing needle 24 when moving up along with screen cloth 6, utilizes crushing needle 24 to carry out better breakage to it, and scraper blade 26 can move up along with the shifting up of screen cloth 6, can move up to the top position of crushing needle 24 together at screen cloth 6 simultaneously, can drive scraper blade 26 and move down when screen cloth 6 moves down, and the removal of scraper blade 26 can play a scraping effect to some culture soil that adheres on crushing needle 24 at this moment.

Further, unless otherwise specifically stated or limited, the above-described fixed connection is to be understood in a broad sense, and may be, for example, welded, glued, or integrally formed by conventional means known to those skilled in the art.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims

1. A microorganism culture soil mixing device for bioengineering comprises a support frame (1), a motor (2), a mixing box (3), a support seat (5), a screen (6) and a mixing rod (4) arranged on a first rotating shaft (27), and is characterized in that a U-shaped groove is formed in the screen (6), the length of the U-shaped groove is equal to that of the screen (6), and a plurality of discharging holes are formed in the bottom wall of the U-shaped groove;

a sliding structure is arranged between the screen (6) and the mixing box (3);

a lifting structure is arranged between the first rotating shaft (27) and the screen (6);

a plurality of second rod bodies (15) are fixedly mounted on the screen (6), a first magnet (16) is fixedly mounted at the upper end of each second rod body (15), a plurality of second magnets (17) are fixedly mounted on the top wall of the mixing box (3), and the magnetism of one side, close to each other, of each first magnet (16) is the same as that of one side, close to each corresponding second magnet (17);

a crushing structure is arranged between the mixing box (3) and the screen (6).

2. The microorganism culture soil mixing device for bioengineering according to claim 1, wherein, the sliding structure comprises four spacing grooves (13) and four sliders (14), two spacing grooves (13) are respectively arranged on the front and back inner walls of the mixing box (3), one slider (14) is respectively arranged in the four spacing grooves (13) in a sliding manner, and one end of the slider (14) far away from the spacing grooves (13) is fixedly connected with the screen (6).

3. The microorganism culture soil mixing device for bioengineering according to claim 1, wherein, the elevation structure comprises a second rotating shaft (7), a first helical gear (8), a second helical gear (9), two magnetic rings (10) and two magnetic blocks, the second rotating shaft (7) is rotatably installed in the mixing box (3), the second helical gear (9) and the two magnetic rings (10) are fixedly installed on the second rotating shaft (7), the magnetic rings (10) comprise two arc-shaped magnetic blocks, the two arc-shaped magnetic blocks are far away from the outer side surface and have opposite magnetism, the first helical gear (8) meshed with the second helical gear (9) is fixedly installed on the first rotating shaft (27), and the two magnetic blocks matched with the magnetic rings (10) are fixedly installed on the lower surface of the screen (6).

4. The microorganism culture soil mixing device for bioengineering according to claim 3, wherein the lower surface of the supporting base (5) is fixedly provided with an arc cover (12) through two rods (11), and the bevel gear (8) and the bevel gear (9) are both arranged below the arc cover (12).

5. The microorganism culture soil mixing device for bioengineering according to claim 1, wherein the crushing structure comprises a gear (18), a first lifting plate (19), a blind hole (20), a sliding seat (21), an extrusion plate (22) and a second lifting plate (23), the mixing box (3) is provided with a first groove, a second groove and the blind hole (20), the second groove is communicated with the first groove and the blind hole (20), the gear (18) is rotatably arranged in the first groove, the first lifting plate (19) is slidably arranged in the second groove, the first lifting plate (19) is engaged with the gear (18), one side of the first lifting plate (19) far away from the gear (18) is fixedly connected with the screen (6), the two rod bodies (15) on the left side are both slidably provided with the sliding seat (21), and the extrusion plate (22) is fixedly arranged on the two sliding seats (21), the second lifting plate (23) is fixedly mounted on the extrusion plate (22) through a rod frame, the second lifting plate (23) is located outside the mixing box (3), and the second lifting plate (23) is meshed with the gear (18).

6. The microorganism culture soil mixing device for bioengineering according to claim 1, wherein, broken structure comprises broken needle (24), connecting block (25), scraper blade (26) and mount pad (28), is located two on the left side body of rod two (15) and all fixedly mounted with one connecting block (25), two fixedly mounted with one scraper blade (26) between connecting block (25), fixedly mounted with mount pad (28) in mixing box (3), and fixedly mounted with a plurality of broken needle (24) on mount pad (28), and broken needle (24) slip through scraper blade (26).