CN113102468B

CN113102468B - Organic solid waste efficient dry anaerobic fermentation equipment

Info

Publication number: CN113102468B
Application number: CN202110431298.1A
Authority: CN
Inventors: 张桂霞
Original assignee: Zhuhai Carbon Source Technology Co ltd
Current assignee: Zhuhai Carbon Source Technology Co ltd
Priority date: 2021-04-21
Filing date: 2021-04-21
Publication date: 2022-11-18
Anticipated expiration: 2041-04-21
Also published as: CN113102468A

Abstract

The invention discloses organic solid waste high-efficiency dry anaerobic fermentation equipment which structurally comprises a fermentation tank, a control panel, a support and a motor, wherein the support is fixedly installed on the lower end face of the fermentation tank through welding, the control panel is embedded and clamped on the outer end face of the fermentation tank, the support is positioned under the motor, the motor is movably clamped and installed on the upper end face of the fermentation tank, when a baffle plate extrudes the surface of a heater, the baffle plate positioned at the right end can be upwards lifted under the inclined guide of the left end face of an inclined plate along with the transmission of extrusion force, a plurality of groups of stirring blades are utilized to attach the outer wall end face of the heater, so that a nested pipe rotates and simultaneously stirs and pushes a mixture on the surface of the heater through an attaching mechanism, the nested pipe is prevented from staying on the surface of the heater for a long time, the evaporation of water in the heater is accelerated, and a hard material in a sheet is adhered to the surface of the heater.

Description

Organic solid waste efficient dry anaerobic fermentation equipment

Technical Field

The invention belongs to the field of anaerobic fermentation equipment, and particularly relates to organic solid waste efficient dry-type anaerobic fermentation equipment.

Background

The anaerobic fermentation equipment is equipment which mixes anaerobic microorganisms and medicines according to a certain proportion and then adds the mixture into the fermentation equipment, and a heater in the fermentation equipment is used for uniformly heating the mixture and a fermented object, so that the fermentation time of the fermented object is shortened.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: when carrying out mixed fermentation with anaerobic microorganisms and liquid medicine, certain humidity has during can the fermentation, and at the in-process of the continuous heating stirring of equipment, moisture in the liquid medicine can evaporate gradually, makes the mixture be thick form, leads to the part to be located the bottom and too close to the mixture of heater, and the heating terminal surface at the heater bonds easily and forms the hard thing of burnt brown slice to influence the fermentation ability of mixture.

Therefore, an efficient dry anaerobic fermentation device for organic solid wastes needs to be provided.

Disclosure of Invention

To solve the problems of the above-described technology.

The invention relates to an organic solid waste high-efficiency dry anaerobic fermentation device, which is realized by the following specific technical means: the structure of the fermentation tank comprises a fermentation tank, a control panel, a support and a motor, wherein the support is fixedly arranged on the lower end face of the fermentation tank through welding, the control panel is embedded and clamped on the outer end face of the fermentation tank, the support is positioned right below the motor, and the motor is movably clamped and arranged on the upper end surface of the fermentation tank; the fermentation tank comprises a stirring mechanism, a rotary disc, a drainage port and heaters, wherein the stirring mechanism is fixedly embedded in the lower end surface of the rotary disc, the rotary disc is positioned right above the heaters, the drainage port is arranged on the outer lower end surface of the fermentation tank, and the heaters are symmetrically arranged at the left end and the right end of the stirring mechanism.

The stirring mechanism comprises a nested pipe, stirring blades and a clamping disc, wherein the stirring blades are mounted on the left and right end faces of the nested pipe in a clamping manner, the stirring blades are symmetrically mounted on the left and right sides of the upper end of the clamping disc, and the nested pipe is mounted on the upper end face of the clamping disc in a movable clamping manner.

Wherein, stirring vane is including intercepting board, slide mechanism, laminating mechanism, parcel layer, the parcel layer is being connected in the laminating of intercepting board, the block is being connected and is being intercepted the board to the slide mechanism left and right sides terminal surface inlay, laminating mechanism inlays the solid lower terminal surface who installs at intercepting the board, parcel layer laminating parcel is at slide mechanism's outside terminal surface, the parcel layer is made for the hollow material of rubber.

The sliding mechanism comprises a flexible rail, balls, an inclined plane plate and an embedding plate, the flexible rail is connected with the inclined plane plate in a laminating mode, the balls are movably clamped and installed on the inner side end face of the inclined plane plate, the embedding plate is fixedly installed on the outer side end face of the inclined plane plate, the embedding plate is clamped and fixed with the intercepting plate, the inclined plane plate is provided with a left inclined plate and a right inclined plate, and the end face between the two inclined planes is inclined.

The flexible rail comprises an arc groove, a clamping block, a rubber wrapping sheet, an arc sheet, wherein the arc groove is movably clamped on the inner side end face of the clamping block, the inner side end face of the clamping block is embedded and fixedly installed to transfer accounts to the arc sheet, the rubber wrapping sheet is attached to and wraps the outer side end face of the arc sheet, the arc sheet is symmetrically installed at the left end and the right end of a ball, and the upper end and the lower end of the outer side of the arc sheet are arc-shaped outlines.

The laminating mechanism comprises rollers, a laminating block, an embedded shaft and a wrapping shell, wherein the rollers are movably clamped on the inner side end face of the wrapping shell, the laminating block is embedded and clamped on the lower end surface of the laminating mechanism, the embedded shaft is symmetrically arranged at the left end and the right end of the wrapping shell, the wrapping shell is fixedly embedded and fixedly arranged above the right side of the laminating block, and the rollers are made of rubber and are carved with anti-skid patterns on the surfaces.

Wherein, the laminating piece includes the gasbag, links up axle, fixed strip, laminating piece, the terminal surface in the right side of laminating piece is located to the gasbag inlay, link up the inner left surface at the laminating piece of axle activity block installation, the fixed strip is located the left side of gasbag, laminating piece left side up end is inlayed and is being fixed the fixed strip, the profile is inside sunken circular-arc on the inner of gasbag.

The laminating piece comprises a rotating shaft, a spring strip, a repulsive magnetic group and a scraping piece, wherein the rotating shaft is movably clamped on the inner side end face of the scraping piece, the spring strip is laminated and wrapped on the outer side face of the upper end of the rotating shaft, the repulsive magnetic group is symmetrically arranged on the left side and the right side of the lower end of the rotating shaft, and the spring strip is fixedly embedded on the upper end face of the scraping piece.

Compared with the prior art, the invention has the following beneficial effects:

1. when the interception plate extrudes the surface of the heater, the interception plate at the right end can be lifted upwards under the guide of the inclination of the left end face of the inclined plate along with the transmission of extrusion force, and the end faces of the outer walls of the heater are attached by utilizing a plurality of groups of stirring blades, so that the nested pipe can stir and push the mixture on the surface of the heater through the attaching mechanism while rotating, the mixture is prevented from staying on the surface of the heater for a long time, the evaporation of water in the heater is accelerated, and the hard material of the sheet is formed and is adhered on the surface of the heater.

2. When the outer contour of the heater is extruded through the fixing strip, the fixing strip can be sunken inwards, swings at the center pivot of the rotating shaft, and swings downwards to gather under the repulsion of the magnetism of the repulsion magnetic groups at the left side and the right side of the lower end, so that the scraping piece is attached to the outer end face of the heater, and the mixture attached to the outer end face of the heater is stirred.

Drawings

FIG. 1 is a schematic structural diagram of an organic solid waste high-efficiency dry anaerobic fermentation device.

FIG. 2 is a schematic structural diagram of a fermentation tank of the organic solid waste high-efficiency dry anaerobic fermentation equipment.

FIG. 3 is a schematic structural diagram of a stirring mechanism of the organic solid waste efficient dry anaerobic fermentation device.

FIG. 4 is a schematic structural diagram of a stirring blade of the organic solid waste high-efficiency dry anaerobic fermentation equipment.

FIG. 5 is a schematic structural diagram of a sliding mechanism of the organic solid waste high-efficiency dry anaerobic fermentation equipment.

FIG. 6 is a schematic structural diagram of a flexible rail of the organic solid waste high-efficiency dry anaerobic fermentation device of the present invention.

FIG. 7 is a schematic structural diagram of a bonding mechanism of the organic solid waste efficient dry anaerobic fermentation device of the present invention.

FIG. 8 is a schematic structural diagram of an organic solid waste high-efficiency dry anaerobic fermentation equipment laminating block of the invention.

FIG. 9 is a schematic structural diagram of an organic solid waste high-efficiency dry anaerobic fermentation equipment attaching sheet of the present invention.

In the figure: the device comprises a fermentation tank-1, a control panel-2, a bracket-3, a motor-4, a stirring mechanism-11, a rotary disc-12, a drainage port-13, a heater-14, a nested pipe-111, a stirring blade-112, a clamping disc-113, a interception plate-121, a sliding mechanism-122, a laminating mechanism-123, a wrapping layer-124, a flexible rail-221, a ball-222, an inclined plane plate-223, a embedding plate-224, an arc groove-211, a clamping block-212, a rubber wrapping sheet-213, an arc sheet-214, a roller-231, a laminating block-232, a nested shaft-233, a wrapping shell-234, an air bag-321, a connecting shaft-322, a fixing strip-323, a laminating sheet-324, a rotating shaft-241, a spring strip-242, a repulsive magnetic group-243 and a scraping blade-244.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides organic solid waste high-efficiency dry anaerobic fermentation equipment which structurally comprises a fermentation tank 1, a control panel 2, a support 3 and a motor 4, wherein the support 3 is fixedly installed on the lower end face of the fermentation tank 1 through welding, the control panel 2 is embedded, clamped and installed on the outer end face of the fermentation tank 1, the support 3 is positioned right below the motor 4, and the motor 4 is movably clamped and installed on the upper end face of the fermentation tank 1; the fermentation tank 1 comprises a stirring mechanism 11, a rotating disc 12, a drainage port 13 and a heater 14, wherein the stirring mechanism 11 is embedded and fixed on the lower end surface of the rotating disc 12, the rotating disc 12 is positioned right above the heater 14, the drainage port 13 is arranged on the outer lower end surface of the fermentation tank 1, and the heaters 14 are symmetrically arranged at the left end and the right end of the stirring mechanism 11.

The stirring mechanism 11 comprises a nested pipe 111, stirring blades 112 and a clamping disc 113, wherein the stirring blades 112 are embedded and clamped on the left and right end surfaces of the nested pipe 111, the stirring blades 112 are symmetrically arranged on the left and right sides of the upper end of the clamping disc 113, and the nested pipe 111 is movably clamped and arranged on the upper end surface of the clamping disc 113.

Wherein, stirring vane 112 includes interception board 121, slide mechanism 122, laminating mechanism 123, parcel layer 124, interception board 121 laminating is being connected parcel layer 124, the block board 121 is being connected to the block board 121 is inlayed to the block of slide mechanism 122 left and right sides terminal surface, laminating mechanism 123 inlays the solid lower extreme surface of installing at interception board 121, parcel layer 124 laminating parcel is at the outside terminal surface of slide mechanism 122, parcel layer 124 is made for the hollow material of rubber, can make its in-process that intercepts board 121 lift still keep the connection closure of terminal surface.

The sliding mechanism 122 includes a flexible rail 221, a ball 222, a slant plate 223, and an embedding plate 224, the flexible rail 221 is connected to the slant plate 223 in an adhering manner, the ball 222 is movably clamped and mounted on an inner side end surface of the slant plate 223, the embedding plate 224 is embedded and mounted on an outer side end surface of the slant plate 223, the intercepting plate 121 is embedded, clamped and fixed by the embedding plate 224, the slant plate 223 has two left and right end surfaces, and an end surface between the two is inclined, so that when the lower end of the intercepting plate 121 located at the right is pressed, the slant plate 223 is pushed upwards to slide under the guidance of the inclined end surface.

The flexible rail 221 comprises an arc groove 211, a clamping block 212, a rubber wrapping sheet 213, arc sheets 214 and 215, the arc groove 211 is movably clamped and installed on the inner side end face of the clamping block 212, the inner side end face of the clamping block 212 is fixedly embedded and transferred to the arc sheet 214, the rubber wrapping sheet 213 is attached to and wrapped on the outer side end face of the arc sheet 214, the arc sheets 214 are symmetrically installed at the left end and the right end of the ball 222, the upper end and the lower end of the outer side of the arc sheet 214 are arc-shaped outlines, the rubber wrapping sheet 213 can be outwards supported, and therefore the minimum diameter of the rubber wrapping sheet 213 is larger than the ball 222.

The specific use mode and function of the embodiment are as follows:

in the using process of the invention, anaerobic microorganisms and liquid medicines to be fermented are mixed and poured into the fermentation tank 1, the motor 4 is used for driving the rotating disc 12 to rotate, the fermentation mixture is stirred by the stirring blade 112 in the stirring mechanism 11 while rotating, the fermentation progress of the mixture can be accelerated by continuous heating of the heater 14, in order to avoid that part of the mixture is adhered to the outer end surface of the heater 14 to form a sheet-shaped hard object along with the evaporation of moisture in the stirring process, a blocking plate 121 and a sliding mechanism 122 are arranged in the stirring blade 112, when the stirring blade 112 swings to the outer contour of the heater 14 along with the rotation of the nested pipe 111, the blocking plate 121 is fixed through the sliding mechanism 122, the sliding mechanism 122 is provided with a flexible rail 221 and a ball 222, when the interception plate 121 presses the surface of the heater 14, the interception plate 121 at the right end is lifted up under the inclined guidance of the left end face of the inclined plate 223 along with the transmission of the pressing force by the movable clamping state formed by the ball 222 and the clamping block 212, and the outer wall end face of the heater 14 is jointed by a plurality of groups of stirring blades 112, so that the nested pipe 111 rotates and simultaneously stirs and pushes the mixture on the surface of the heater 14 through the jointing mechanism 123, the mixture is prevented from staying on the surface of the heater 14 for a long time, the evaporation of the water in the body is accelerated, and the hard object is formed and adhered on the surface of the heater 14.

Example 2:

as shown in fig. 7 to 9:

wherein, laminating mechanism 123 includes gyro wheel 231, laminating piece 232, nested axle 233, parcel shell 234, the inboard terminal surface at parcel shell 234 is installed to gyro wheel 231 activity block, laminating piece 232 inlays the block and installs the lower extreme surface at laminating mechanism 123, inlay axle 233 symmetry and install the left and right both ends at parcel shell 234, parcel shell 234 inlays the block and installs the right side top at laminating piece 232, gyro wheel 231 is made for rubber and the surface sculpture has anti-skidding line, can make it produce deformation when offsetting with heater 14 outline, and guarantees its surface friction.

Wherein, laminating piece 232 includes gasbag 321, linking axle 322, fixed strip 323, laminating piece 324, the terminal surface is located in the right side of laminating piece 232 in the inlaying of gasbag 321, join axle 322 activity block and install the inner left surface at laminating piece 324, fixed strip 323 is located the left side of gasbag 321, laminating piece 324 left side up end is inlayed and is being fixed strip 323, the interior end of gasbag 321 is gone up the profile and is inside sunken circular-arc, can make laminating piece 324 inside sunken production deformation when laminating to heater 14 outline.

The attachment sheet 324 comprises a rotating shaft 241, a spring bar 242, a repulsive magnetic group 243 and a wiper 244, the rotating shaft 241 is movably clamped on the inner side end face of the wiper 244, the spring bar 242 is attached and wrapped on the outer side face of the upper end of the rotating shaft 241, the repulsive magnetic group 243 is symmetrically arranged on the left side and the right side of the lower end of the rotating shaft 241, the spring bar 242 is fixedly embedded on the upper end face of the wiper 244, and the repulsive magnetic group 243 is provided with two magnets which repel each other.

The specific use mode and function of the embodiment are as follows:

in the invention, when the mixture on the surface of the heater 14 is scraped by the attaching mechanism 123, in order to ensure the attaching performance to the outer contour of the heater 14, the air bag 321 and the fixing strip 323 are arranged in the spring strip 242, so that when the interception plate 121 presses the end surface of the heater 14, the direction of the pressing force can be changed by the rolling effect of the rotating shaft 241, the interception plate 121 is lifted up slowly, then the outer contour of the heater 14 is pressed by the fixing strip 323 arranged on the surface of the spring strip 242, and because the fixing strip 323 is connected in a sectional array manner, when the outer contour of the heater 14 is pressed by the fixing strip 323, the fixing strip 323 can be sunken inwards, and simultaneously swings with the central fulcrum of the position of the rotating shaft 241, the scraping blades 244 swing downwards and gather under the magnetic repulsion of the magnetic groups 243 on the left and right sides of the lower end, thereby attaching the scraping blades 244 to the outer end surface of the heater 14, and stirring the mixture attached to the outer end surface of the heater 14.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The organic solid waste high-efficiency dry anaerobic fermentation equipment structurally comprises a fermentation tank (1), a control panel (2), a support (3) and a motor (4), wherein the support (3) is fixedly installed on the lower end face of the fermentation tank (1) through welding, the control panel (2) is embedded, clamped and installed on the outer end face of the fermentation tank (1), the support (3) is located under the motor (4), and the motor (4) is movably clamped and installed on the upper end surface of the fermentation tank (1); the method is characterized in that:

the fermentation tank (1) comprises a stirring mechanism (11), a rotating disc (12), a drainage port (13) and a heater (14), wherein the stirring mechanism (11) is embedded and fixed on the lower end surface of the rotating disc (12), the rotating disc (12) is positioned right above the heater (14), the drainage port (13) is installed on the lower end surface of the outer side of the fermentation tank (1), and the heaters (14) are symmetrically installed at the left end and the right end of the stirring mechanism (11);

the stirring mechanism (11) comprises a nested pipe (111), stirring blades (112) and a clamping disc (113), the stirring blades (112) are embedded, clamped and installed on the end surfaces of the left side and the right side of the nested pipe (111), the stirring blades (112) are symmetrically installed on the left side and the right side of the upper end of the clamping disc (113), and the nested pipe (111) is movably clamped and installed on the upper end surface of the clamping disc (113);

the stirring blade (112) comprises an interception plate (121), a sliding mechanism (122), a fitting mechanism (123) and a wrapping layer (124), the interception plate (121) is fitted and connected with the wrapping layer (124), the end faces of the left side and the right side of the sliding mechanism (122) are fitted, clamped and connected with the interception plate (121), the fitting mechanism (123) is fixedly installed on the surface of the lower end of the interception plate (121), and the wrapping layer (124) is fitted and wrapped on the end face of the outer side of the sliding mechanism (122);

the sliding mechanism (122) comprises a flexible rail (221), balls (222), an inclined plate (223) and an embedding plate (224), the flexible rail (221) is attached and connected with the inclined plate (223), the balls (222) are movably clamped and installed on the inner side end face of the inclined plate (223), the embedding plate (224) is embedded and installed on the outer side end face of the inclined plate (223), the intercepting plate (224) is embedded, clamped and fixed with the intercepting plate (121), the inclined plate (223) is provided with a left end and a right end, the end face between the left end and the right end is inclined, when the intercepting plate (121) extrudes the surface of the heater (14), the intercepting plate (121) at the right end can lift upwards under the inclined guide of the left end face of the inclined plate (223) along with the transmission of extrusion force, the outer wall end face of the heater (14) is attached through a plurality of groups of stirring blades (112), and the nested tube (111) is enabled to rotate and simultaneously stir and push the mixture on the surface of the heater (14) through the attaching mechanism (123);

the flexible rail (221) comprises an arc groove (211), a clamping block (212), a rubber wrapping sheet (213) and an arc sheet (214), the arc groove (211) is movably clamped and mounted on the inner side end face of the clamping block (212), the inner side end face of the clamping block (212) is fixedly mounted on the arc sheet (214), the rubber wrapping sheet (213) is attached to and wraps the outer side end face of the arc sheet (214), and the arc sheets (214) are symmetrically mounted at the left end and the right end of the ball (222);

the laminating mechanism (123) comprises a roller (231), a laminating block (232), a nesting shaft (233) and a wrapping shell (234), wherein the roller (231) is movably clamped and installed on the end surface of the inner side of the wrapping shell (234), the laminating block (232) is embedded, clamped and installed on the surface of the lower end of the laminating mechanism (123), the nesting shaft (233) is symmetrically installed at the left end and the right end of the wrapping shell (234), and the wrapping shell (234) is embedded and installed above the right side of the laminating block (232);

the attaching block (232) comprises an air bag (321), a connecting shaft (322), a fixing strip (323) and an attaching sheet (324), the air bag (321) is embedded in the inner end face of the right side of the attaching block (232), the connecting shaft (322) is movably clamped and installed on the left side face of the inner end of the attaching sheet (324), the fixing strip (323) is located on the left side of the air bag (321), and the fixing strip (323) is embedded and fixed on the upper end face of the left side of the attaching sheet (324);

laminating piece (324) are including pivot (241), spring bar (242), repulsion magnetic unit (243), doctor-bar (244), the medial surface at doctor-bar (244) is installed in pivot (241) activity block, spring bar (242) laminating parcel is in the upper end lateral surface of pivot (241), repulsion magnetic unit (243) symmetry is installed in the lower extreme left and right sides of pivot (241).