CN113512484B

CN113512484B - Compound microbial preparation storage device

Info

Publication number: CN113512484B
Application number: CN202110081720.5A
Authority: CN
Inventors: 王彦林; 梁志强; 田学锋
Original assignee: Shanghai El Tianhe Environmental Technology Co ltd
Current assignee: Shanghai El Tianhe Environmental Technology Co ltd
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2023-01-10
Anticipated expiration: 2041-01-21
Also published as: CN113512484A

Abstract

The invention discloses a composite microbial preparation storage device which comprises a storage tank, wherein a stirring mechanism is arranged on the storage tank, the lower end of the storage tank is connected with a discharging structure and a fixed support frame, and a pushing driving mechanism and a material receiving structure are arranged on the fixed support frame. According to the invention, the stirring mechanism can stir the composite microbial preparation stored in the stirring mechanism, so that the phenomenon of sedimentation and layering of the composite microbial preparation is effectively prevented, meanwhile, the first scraper and the second scraper can scrape and clean the inner wall of the storage tank during stirring, the composite microbial preparation is not attached to the inner wall of the storage tank, so that the cleaning of the inner wall of the storage tank is ensured, the pushing driving mechanism is started during material receiving, the material receiving structure and the lower end of the telescopic hose are pushed out from the lower part of the storage tank, so that the composite microbial preparation is convenient to take, and when the composite microbial preparation is not used, the material receiving structure and the telescopic hose are retracted to the lower part of the storage tank, so that the occupied space can be effectively reduced, and other work can be conveniently carried out.

Description

Compound microbial preparation storage device

Technical Field

The invention belongs to the field of preparation storage equipment, and particularly relates to a composite microbial preparation storage device.

Background

Composite microbial preparation is as a preparation that can effectively degrade rubbish from cooking, has been generally adopted, nevertheless adopt traditional simple structure's holding vessel when storing composite microbial preparation at present, traditional holding vessel does not set up rabbling mechanism, the layering phenomenon takes place easily for composite microbial preparation, and the easy attached accumulation composite microbial preparation of holding vessel inner wall, need regularly clear up, the troublesome poeration, the blowing structure of holding vessel lower extreme is fixed simultaneously, it is inconvenient to get the material.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides a composite microbial preparation storage device, wherein a stirring mechanism can stir a composite microbial preparation stored in the stirring mechanism, the phenomenon of sedimentation and layering of the composite microbial preparation is effectively prevented, meanwhile, a first scraper and a second scraper can scrape and clean the inner wall of a storage tank during stirring, the composite microbial preparation cannot be attached to the inner wall of the storage tank, the cleaning of the inner wall of the storage tank is ensured, a pushing driving mechanism is started during material receiving, a material receiving structure and the lower end of a flexible hose are pushed out from the lower part of the storage tank, so that the composite microbial preparation is convenient to take, and the material receiving structure and the flexible hose are retracted to the lower part of the storage tank when not in use, so that the occupied space can be effectively reduced, and other work is convenient to carry out.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

a composite microbial preparation storage device comprises a storage tank, wherein a stirring mechanism is arranged on the storage tank, the lower end of the storage tank is connected with a discharging structure and a fixed support frame, and a pushing driving mechanism and a material receiving structure are arranged on the fixed support frame;

the upper end of the storage tank is a cylindrical part, the lower end of the storage tank is a conical part, a sealing cover is installed at the top of the storage tank, a discharge hole is formed in the bottom of the storage tank, a feed inlet is formed in one side of the cylindrical part of the storage tank, and a feed hopper is connected to the feed inlet;

the stirring mechanism comprises a rotating vertical shaft, the upper end of the rotating vertical shaft penetrates through a sealing cover and is connected with a first synchronous belt pulley, the upper end of one side of the storage tank is fixed with a mounting transverse plate, a transmission shaft is vertically connected onto the mounting transverse plate in a penetrating manner, the lower end of the transmission shaft is connected with a first motor, the upper end of the transmission shaft penetrates through the mounting transverse plate in a sliding manner and is connected with a second synchronous belt pulley, a first synchronous belt is connected between the second synchronous belt pulley and a first synchronous belt pulley, first stirring plates are uniformly distributed on the outer wall of the rotating vertical shaft, one end, away from the rotating vertical shaft, of each first stirring plate is arranged in an upward inclined manner and is connected with a first scraping plate, the outer side of each first scraping plate is in sliding fit with the inner wall of the cylindrical portion of the storage tank, a second scraping plate is arranged at the lower end of each first scraping plate, the outer side of each second scraping plate is in sliding fit with the inner wall of the conical portion of the storage tank, and a second stirring plate is connected between the rotating vertical shaft;

the discharging structure comprises a telescopic hose, a flange is arranged at the upper end of the telescopic hose, the telescopic hose is fixedly connected with a discharging hole through the flange, a fixed pipe is arranged at the lower end of the telescopic hose, a connecting circular ring is fixedly connected to the outer wall of the fixed pipe, connecting cross bars are symmetrically arranged on the left side and the right side of the connecting circular ring, and a connecting vertical plate is arranged at the outer end of each connecting cross bar;

the fixed support frame comprises four support columns which are distributed in a rectangular shape, the upper ends of the support columns are fixedly connected with the outer wall of the storage tank, the lower ends of the inner sides of the support columns are vertically provided with connecting blocks, the upper ends of the connecting blocks are connected with U-shaped bottom plates which are distributed horizontally, and the front ends of the U-shaped bottom plates are open ends;

the pushing driving mechanism comprises a first rotating vertical rod and a second rotating vertical rod which are distributed on the left side and the right side of the front end of the U-shaped bottom plate, the first rotating vertical rod and the second rotating vertical rod are rotationally connected with the U-shaped bottom plate, the lower end of the first rotating vertical rod penetrates through the U-shaped bottom plate in a sliding mode and is connected with a third synchronous pulley, the lower end of the second rotating vertical rod penetrates through the U-shaped bottom plate in a sliding mode and is connected with a fourth synchronous pulley, the fourth synchronous pulley is fixedly connected with the third synchronous pulley through a second synchronous belt, the outer wall of the second rotating vertical rod is connected with a first bevel gear, the rear side of the first bevel gear is meshed with a second bevel gear, the rear end of the second bevel gear is connected with a second motor, the fixed end of the second motor is fixedly connected with the upper end of the U-shaped bottom plate, the upper end of the first rotating vertical rod and the upper end of the second rotating vertical rod are connected with straight gears, the inner sides of the straight gears are meshed with horizontally distributed telescopic racks, the outer sides of the telescopic racks are slidably connected with U-shaped sleeve plates, the open ends of the U-shaped sleeve plates face inwards, the U-shaped sleeve plates are fixedly connected with the connecting blocks;

connect the material structure including removing the bottom plate, remove bottom plate and the inboard sliding fit of U type bottom plate, remove the bottom plate lower extreme front side and install the removal gyro wheel, remove bottom plate upper side rear end and be equipped with the connection pole setting, connect the pole setting upper end and be equipped with perpendicularly and connect the horizontal pole, connect horizontal pole both ends and connecting block fixed connection, remove the bottom plate upper end and install the ration and connect the storage bucket.

Furthermore, install the solenoid valve in the discharge opening, install the check valve in the feed opening.

Furthermore, a meshing notch is formed in the front end of the outer side of the U-shaped sleeve plate, corresponding to the straight gear, a fixed transverse plate is fixed to the position, located on the upper side of the meshing notch, of the U-shaped sleeve plate, and the upper end of the first rotating vertical rod and the upper end of the second rotating vertical rod are rotatably connected with the fixed transverse plate.

Furthermore, the upper end of the movable bottom plate is provided with a placing groove, and a quantitative material receiving barrel is connected in the placing groove in a sliding mode.

The invention has the beneficial effects that:

1. in the invention, the stirring mechanism can stir the composite microbial preparation stored in the stirring mechanism, so that the phenomenon of precipitation and stratification of the composite microbial preparation is effectively prevented, the degradation effect of the composite microbial preparation in use is ensured, and meanwhile, the first scraper and the second scraper in the stirring mechanism can scrape and clean the inner wall of the storage tank in stirring, so that the composite microbial preparation is not attached to the inner wall of the storage tank, and the cleaning of the inner wall of the storage tank is ensured, therefore, the inner wall of the storage tank does not need to be cleaned independently, and the time and the labor are saved;

2. when connecing the material, start propelling movement actuating mechanism, will connect material structure and bellows lower extreme to release from the holding vessel below to make things convenient for taking of compound microbial preparation, when not using, will connect material structure and bellows to retrieve the holding vessel below, can effectively reduce and take up an area of the space, make things convenient for going on of other works.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

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

FIG. 2 is a schematic view of a portion of the present invention;

FIG. 3 is a partial sectional view of the present invention;

FIG. 4 is a partial schematic of the present invention;

FIG. 5 is an exploded view of a portion of the structure of the present invention;

FIG. 6 is an exploded view of a portion of the structure of the present invention;

FIG. 7 is a partial schematic view of the present invention;

FIG. 8 is a partial schematic of the invention;

fig. 9 is an exploded view of a partial structure of the present invention.

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.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

As shown in fig. 1, a composite microbial preparation storage device comprises a storage tank 1, wherein an agitating mechanism 2 is installed on the storage tank 1, a discharging structure 3 and a fixed support frame 4 are connected to the lower end of the storage tank 1, and a pushing driving mechanism 5 and a material receiving structure 6 are installed on the fixed support frame 4.

As shown in fig. 2, the upper end of the storage tank 1 is a cylindrical portion, the lower end of the storage tank 1 is a conical portion, a sealing cover 12 is installed at the top of the storage tank 1, a discharge hole 11 is formed in the bottom of the storage tank 1, an electromagnetic valve is installed in the discharge hole 11, the electromagnetic valve is shown in the figure, a feed inlet 13 is formed in one side of the cylindrical portion of the storage tank 1, a check valve is installed in the feed inlet 13, liquid in the check valve only cannot flow in, and a feed hopper 14 is connected to the feed inlet 13.

As shown in fig. 3, the stirring mechanism 2 includes a rotating vertical shaft 21, an upper end of the rotating vertical shaft 21 penetrates through the sealing cover 12 and is connected with a first synchronous pulley 22, an installation transverse plate 23 is fixed at an upper end of one side of the storage tank 1, a transmission shaft 24 is vertically connected to the installation transverse plate 23 in a penetrating manner, a first motor 25 is connected to a lower end of the transmission shaft 24, an upper end of the transmission shaft 24 penetrates through the installation transverse plate 23 in a sliding manner and is connected with a second synchronous pulley 26, a first synchronous belt 27 is connected between the second synchronous pulley 26 and the first synchronous pulley 22, first stirring plates 211 are uniformly distributed on an outer wall of the rotating vertical shaft 21, one end of each first stirring plate 211, which is far away from the rotating vertical shaft 21, is arranged in an upward inclined manner and is connected with a first scraping plate 212, an outer side of each first scraping plate 212 is in sliding fit with an inner wall of a cylindrical portion of the storage tank 1, a lower end of each first scraping plate 212 is provided with a second scraping plate 213, an outer side of each second scraping plate 213 is in sliding fit with an inner wall of a conical portion of the storage tank 1, and a second stirring plate 214 is connected between each second scraping plate 213 and the rotating vertical shaft 21.

As shown in fig. 4, the discharging structure 3 includes a flexible hose 31, a flange 311 is disposed at an upper end of the flexible hose 31, the flexible hose 31 is fixedly connected to the discharging hole 11 through the flange 311, a fixed pipe 312 is disposed at a lower end of the flexible hose 31, a connecting ring 32 is fixedly connected to an outer wall of the fixed pipe 312, connecting cross bars 321 are symmetrically disposed on left and right sides of the connecting ring 32, and a connecting vertical plate 322 is disposed at an outer end of the connecting cross bar 321.

As shown in fig. 5, the fixed support frame 4 includes four support columns 41 distributed in a rectangular shape, the upper ends of the support columns 41 are fixedly connected to the outer wall of the storage tank 1, the lower ends of the inner sides of the support columns 41 are vertically provided with connecting blocks 411, the upper ends of the connecting blocks 411 are connected to U-shaped bottom plates 42 distributed horizontally, and the front ends of the U-shaped bottom plates 42 are open ends.

As shown in fig. 6 and 7, the pushing driving mechanism 5 includes a first rotating vertical rod 51 and a second rotating vertical rod 52 distributed on the left and right sides of the front end of the U-shaped bottom plate 42, the first rotating vertical rod 51 and the second rotating vertical rod 52 are both rotationally connected with the U-shaped bottom plate 42, the lower end of the first rotating vertical rod 51 slidably penetrates through the U-shaped bottom plate 42 and is connected with a third synchronous pulley 511, the lower end of the second rotating vertical rod 52 slidably penetrates through the U-shaped bottom plate 42 and is connected with a fourth synchronous pulley 521, the fourth synchronous pulley 521 is fixedly connected with the third synchronous pulley 511 through a second synchronous belt 56, the outer wall of the second rotating vertical rod 52 is connected with a first bevel gear 53, the rear side of the first bevel gear 53 is engaged with a second bevel gear 54, the rear end of the second bevel gear 54 is connected with a second motor 55, the fixed end of the second motor 55 is fixedly connected with the upper end of the U-shaped bottom plate 42, straight gears 57 are connected to the upper ends of the first rotating vertical rod 51 and the second rotating vertical rod 52, telescopic racks 58 which are horizontally distributed are meshed and connected to the inner sides of the straight gears 57, a U-shaped sleeve plate 59 is connected to the outer side of each telescopic rack 58 in a sliding mode, the opening end of each U-shaped sleeve plate 59 faces the inner side, the outer side of each U-shaped sleeve plate 59 is fixedly connected with the support column 41, a meshing notch 591 is formed in the position, corresponding to the straight gears 57, of the front end of the outer side of each U-shaped sleeve plate 59, a fixing transverse plate 592 is fixed to the position, located on the upper side of the meshing notch 591, of each U-shaped sleeve plate 59, the upper ends of the first rotating vertical rod 51 and the second rotating vertical rod 52 are rotatably connected with the fixing transverse plate 592 on the corresponding side, a connecting block 581 is arranged at the rear end of the inner side of each telescopic rack 58, and the connecting vertical plate 322 is fixedly connected with the middle portion of the inner side of each telescopic rack 58.

As shown in fig. 8 and 9, the material receiving structure 6 includes a movable bottom plate 61, the movable bottom plate 61 is in sliding fit with the inner side of the U-shaped bottom plate 42, a movable roller 62 is installed on the front side of the lower end of the movable bottom plate 61, a connecting vertical rod 63 is installed on the rear end of the upper side of the movable bottom plate 61, a connecting cross rod 631 is vertically installed on the upper end of the connecting vertical rod 63, two ends of the connecting cross rod 631 are fixedly connected with a connecting block 581, a placing groove 611 is opened on the upper end of the movable bottom plate 61, a quantitative material receiving barrel 64 is slidably connected in the placing groove 611, and the quantitative material receiving barrel 64 is located under the fixed pipe 312.

In the invention, the stirring mechanism 2 can stir the composite microbial preparation stored in the stirring mechanism 2, so that the phenomenon of precipitation and stratification of the composite microbial preparation is effectively prevented, the degradation effect of the composite microbial preparation in use is ensured, and meanwhile, the first scraper 212 and the second scraper 213 in the stirring mechanism 2 can scrape and clean the inner wall of the storage tank 1 in stirring, so that the composite microbial preparation is not attached to the inner wall of the storage tank 1, and the cleaning of the inner wall of the storage tank 1 is ensured, so that the inner wall of the storage tank 1 does not need to be cleaned independently, and time and labor are saved; when receiving the material, start second motor 55 among the propelling movement actuating mechanism 5, drive second bevel gear 54 and rotate, second bevel gear 54 drives second rotation pole setting 52 through first bevel gear 53 and rotates, second rotation pole setting 52 drives first rotation pole setting 51 through second hold-in range 56 and rotates, first rotation pole setting 51, second rotation pole setting 52 drives telescopic rack 58 through spur gear 57 and outwards stretches out, thereby to connect material structure 6 and bellows 31 lower extreme to release from holding vessel 1 below, thereby make things convenient for taking of compound microbial preparation, when not using, to connect material structure 6 and bellows 31 to withdraw holding vessel 1 below, can effectively reduce and take up an area of the space, make things convenient for going on of other work.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims

1. A compound microbial preparation storage device which characterized in that: the device comprises a storage tank (1), wherein a stirring mechanism (2) is installed on the storage tank (1), the lower end of the storage tank (1) is connected with a discharging structure (3) and a fixed support frame (4), and a pushing driving mechanism (5) and a material receiving structure (6) are installed on the fixed support frame (4);

the upper end of the storage tank (1) is a cylindrical part, the lower end of the storage tank (1) is a conical part, a sealing cover (12) is installed at the top of the storage tank (1), a discharge hole (11) is formed in the bottom of the storage tank (1), a feed inlet (13) is formed in one side of the cylindrical part of the storage tank (1), and a feed hopper (14) is connected to the feed inlet (13);

the stirring mechanism (2) comprises a rotating vertical shaft (21), the upper end of the rotating vertical shaft (21) penetrates through a sealing cover (12) and is connected with a first synchronous belt pulley (22), an installation transverse plate (23) is fixed at the upper end of one side of the storage tank (1), a transmission shaft (24) vertically penetrates through the installation transverse plate (23), the lower end of the transmission shaft (24) is connected with a first motor (25), the upper end of the transmission shaft (24) penetrates through the installation transverse plate (23) in a sliding mode and is connected with a second synchronous belt pulley (26), a first synchronous belt (27) is connected between the second synchronous belt pulley (26) and the first synchronous belt pulley (22), first stirring plates (211) are uniformly distributed on the outer wall of the rotating vertical shaft (21), one end, far away from the rotating vertical shaft (21), of each first stirring plate (211) is upwards obliquely arranged and connected with a first scraping plate (212), the outer side of each first scraping plate (212) is in sliding fit with the inner wall of the cylindrical portion of the storage tank (1), a second scraping plate (213) is arranged at the lower end of the first scraping plate (212), the outer side of the second scraping plate (213) is in sliding fit with the inner wall of the cylindrical portion of the storage tank (1), and a second stirring plate (214) is connected between the rotating vertical shaft (21);

the discharging structure (3) comprises a flexible hose (31), a flange (311) is arranged at the upper end of the flexible hose (31), the flexible hose (31) is fixedly connected with the discharging hole (11) through the flange (311), a fixed pipe (312) is arranged at the lower end of the flexible hose (31), the outer wall of the fixed pipe (312) is fixedly connected with a connecting circular ring (32), connecting transverse strips (321) are symmetrically arranged on the left side and the right side of the connecting circular ring (32), and connecting vertical plates (322) are arranged at the outer ends of the connecting transverse strips (321);

the fixed support frame (4) comprises four support columns (41) which are distributed in a rectangular shape, the upper ends of the support columns (41) are fixedly connected with the outer wall of the storage tank (1), the lower end of the inner side of each support column (41) is vertically provided with a connecting block (411), the upper end of each connecting block (411) is connected with a U-shaped bottom plate (42) which is horizontally distributed, and the front end of each U-shaped bottom plate (42) is an open end;

the push driving mechanism (5) comprises a first rotating vertical rod (51) and a second rotating vertical rod (52) which are distributed on the left side and the right side of the front end of a U-shaped bottom plate (42), the first rotating vertical rod (51) and the second rotating vertical rod (52) are rotationally connected with the U-shaped bottom plate (42), the lower end of the first rotating vertical rod (51) slides through the U-shaped bottom plate (42) and is connected with a third synchronous pulley (511), the lower end of the second rotating vertical rod (52) slides through the U-shaped bottom plate (42) and is connected with a fourth synchronous pulley (521), the fourth synchronous pulley (521) is fixedly connected with a third synchronous pulley (511) through a second synchronous belt (56), the outer wall of the second rotating vertical rod (52) is connected with a first bevel gear (53), the rear side of the first bevel gear (53) is engaged with a second bevel gear (54), the rear end of the second bevel gear (54) is connected with a second motor (55), the fixed end of the second motor (55) is fixedly connected with the upper end of the U-shaped bottom plate (42), the upper end of the first rotating vertical rod (51), the second rotating vertical rod (52) is fixedly connected with a straight bevel gear (57), the U-shaped bottom plate (59), the U-shaped bottom plate is connected with a U-shaped bottom plate (58) through a U-shaped telescopic sleeve (57) and a U-shaped sleeve (59) which is connected with the inner side of the straight gear sleeve (57), the U-shaped sleeve (58), the rear end of the inner side of the telescopic rack (58) is provided with a connecting block (581), and the connecting vertical plate (322) is fixedly connected with the middle part of the inner side of the telescopic rack (58);

the material receiving structure (6) comprises a movable bottom plate (61), the movable bottom plate (61) is in sliding fit with the inner side of a U-shaped bottom plate (42), a movable roller (62) is installed on the front side of the lower end of the movable bottom plate (61), a connecting upright rod (63) is arranged at the rear end of the upper side of the movable bottom plate (61), a connecting cross rod (631) is vertically arranged at the upper end of the connecting upright rod (63), two ends of the connecting cross rod (631) are fixedly connected with a connecting block (581), and a quantitative material receiving barrel (64) is installed at the upper end of the movable bottom plate (61);

the front end of the outer side of the U-shaped sleeve plate (59) is provided with an engagement notch (591) at a position corresponding to the straight gear (57), a fixed transverse plate (592) is fixed at a position on the upper side of the engagement notch (591) on the U-shaped sleeve plate (59), and the upper end of the first rotating vertical rod (51) and the upper end of the second rotating vertical rod (52) are rotatably connected with the fixed transverse plate (592).

2. The composite microbial preparation storage device of claim 1, wherein: an electromagnetic valve is installed in the discharging hole (11), and a one-way valve is installed in the feeding hole (13).

3. The composite microbial preparation storage device of claim 1, wherein: the upper end of the movable bottom plate (61) is provided with a placing groove (611), and a quantitative material receiving barrel (64) is connected in the placing groove (611) in a sliding mode.