CN117427556B - Raw material mixing and stirring equipment for preparing composite carbon source - Google Patents

Abstract

The invention relates to the technical field of mixing and stirring equipment, and provides raw material mixing and stirring equipment for preparing a composite carbon source, which comprises a composite carbon source mixing cylinder body, a stirring mechanism and a supporting frame body, wherein the composite carbon source mixing cylinder body is arranged on the supporting frame body through a shaking and shaking mechanism, a quantitative feeding mechanism is used for quantitatively conveying various raw materials to the inside of the composite carbon source mixing cylinder body, the quantitative detection mechanism comprises a transfer detection cylinder and an opening and closing component, the opening and closing component is arranged at the bottom of the transfer detection cylinder and used for closing and opening the transfer detection cylinder, the quantitative detection component is used for detecting the medicament dosage and controlling the opening and closing of the opening and closing component, and the quantitative detection component comprises a liquid level sensor, and the liquid level sensor is arranged in the transfer detection cylinder. Through the technical scheme, the problems that in the prior art, the fault tolerance rate is low in the mixing and charging process, and waste is easy to generate are solved.

Description

Raw material mixing and stirring equipment for preparing composite carbon source

Technical Field

The invention relates to the technical field of mixing and stirring equipment, in particular to raw material mixing and stirring equipment for preparing a composite carbon source.

Background

The composite carbon source is a relatively suitable water treatment product, is a carbon source product for starting debugging of a sewage biochemical system or shortening recovery time, is also a carbon source selection of a traditional denitrification and chlorate removal process, is a novel carbon source product produced by taking various organic substances as raw materials through fermentation and special enzyme hydrolysis technologies, has the characteristics of small addition, easy absorption and utilization by microorganisms, reduction of organic sludge yield and improvement of sludge activity, and needs to be uniformly stirred by using raw material mixing and stirring equipment in the preparation process.

When the existing raw material mixing stirring equipment is used for mixing and stirring composite carbon source raw materials, the raw materials are quantitatively added into the stirring equipment generally, the raw materials are mixed and stirred through stirring blades, in the production process, the raw materials are more mixed at one time due to the consideration of processing cost and processing efficiency, a specific proportioning relationship exists among the composite carbon source raw materials, if one or more raw materials are added in the feeding process and change due to misoperation or equipment failure, the effect of the composite carbon source is influenced by more or less raw materials, the composite carbon source raw materials in the whole mixing stirring equipment are all waste materials, the fault tolerance rate is low, the wrong adding amount is difficult to judge, the composite carbon source is difficult to re-proportion, and the resource waste is caused.

Disclosure of Invention

The invention provides raw material mixing and stirring equipment for preparing a composite carbon source, which solves the problems of lower fault tolerance rate and easiness in generating waste materials in the mixing and feeding process in the related technology.

The technical scheme of the invention is as follows:

the raw material mixing and stirring equipment for preparing the composite carbon source comprises a composite carbon source mixing cylinder and a stirring mechanism, wherein the bottom of the composite carbon source mixing cylinder is communicated with a discharge pipe with a valve;

wherein the stirring comprises:

the stirring motor is arranged on the composite carbon source mixing cylinder;

the stirring blades are provided with a plurality of stirring shafts, the stirring shafts are rotatably arranged in the composite carbon source mixing cylinder, one ends of the stirring shafts are fixedly arranged at the output ends of the stirring motors, and the stirring blades are fixedly sleeved on the periphery of the stirring shafts;

further comprises:

the composite carbon source mixing cylinder is arranged on the support frame body through a shaking and homogenizing mechanism;

wherein the shaking and homogenizing mechanism comprises;

the angle adjustment unit, the angle adjustment unit is used for rotating the mixed barrel of compound carbon source, the angle adjustment unit includes:

the angle adjusting driving electric cylinder is arranged on the support frame body, and the output end of the angle adjusting driving electric cylinder is fixedly provided with two driving racks through a connecting frame;

the driven gears are arranged and rotatably mounted on the support frame body through support shafts, and the two driven gears are respectively meshed with the corresponding driving racks;

the rocking unit is used for driving the composite carbon source mixing cylinder to slide, and the rocking unit comprises:

the driving slide block is fixedly arranged in the driven gear and is slidably arranged in the sliding track, the composite carbon source mixing cylinder is fixedly provided with two driving shafts, and the two driving shafts are respectively and fixedly arranged on the corresponding driving slide blocks;

the shaking driving electric cylinder is arranged on the driven gear, and the output end of the shaking driving electric cylinder extends into the sliding track and is fixedly arranged with the driving sliding block;

the quantitative feeding mechanism is used for quantitatively conveying various raw materials to the inside of the composite carbon source mixing cylinder, and comprises:

the raw material barrels are arranged in a plurality, and are arranged on the support frame body through a fixing frame;

the crowded material subassembly, crowded material subassembly is installed on the feed cylinder for inhale the material to the inside of feed cylinder and to the inside pay-off of compound carbon source mixing barrel, crowded material subassembly includes:

the extrusion electric cylinder is arranged at the top of the raw material barrel;

the extrusion plate is fixedly arranged at the output end of the extrusion electric cylinder, and the extrusion electric cylinder and the inner wall of the composite carbon source mixing cylinder are in sealing sliding fit;

the material extracting head is communicated with the bottom of the raw material barrel, and a valve is arranged on the material extracting head;

the quantitative detection mechanism is used for detecting the raw material quantity sent out by the quantitative feeding mechanism and discharging the raw material quantity into the composite carbon source mixing cylinder body without errors, and comprises the following components;

the device comprises a plurality of transfer detection cylinders, wherein the transfer detection cylinders are communicated with the top of the composite carbon source mixing cylinder, the transfer detection cylinders are communicated with the quantitative feeding mechanism, in particular, the top of each transfer detection cylinder is communicated with the bottom of each raw material cylinder through a feeding pipe, and a pressure release valve is arranged at the top of each transfer detection cylinder;

the switching subassembly, the switching subassembly is installed the bottom of transfer detection section of thick bamboo for realize the closure and the opening of transfer detection section of thick bamboo, the switching subassembly includes:

the switching electric cylinder is arranged in the protective cover;

the sealing block is fixedly arranged at the output end of the opening and closing electric cylinder and is used for sealing the bottom of the centering detection cylinder;

the quantitative detection subassembly, quantitative detection subassembly is used for detecting the medicament volume and controlling the switching of switching subassembly, quantitative detection subassembly includes:

the liquid level sensor is installed in the transfer detection cylinder, the liquid level sensor is electrically connected with the opening and closing assembly, and particularly, the liquid level sensor is electrically connected with the opening and closing electric cylinder.

For carrying out comparatively clear observation to the inside raw materials volume of feed cylinder, the viewing aperture has been seted up on the feed cylinder, the internally mounted of viewing aperture has transparent observation window, and be provided with the scale on the feed cylinder.

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

1. according to the invention, the extrusion plate can be driven to lift by extruding the electric cylinder, the material pumping head is communicated with the water pipe, the valve is opened, the composite carbon source raw material can be pumped into the corresponding raw material box by the material pumping head when the extrusion plate rises, the valve is closed, the composite carbon source raw material in the raw material box can be quantitatively discharged when the extrusion plate descends, and the feeding quantity can be controlled by controlling the descending distance of the extrusion electric cylinder;

2. in the invention, the composite carbon source raw material is sent into the interior of the transfer detection cylinder, the height of the composite carbon source raw material is detected through the liquid level sensor, the liquid level of the liquid level sensor is set in advance, when the liquid level of the composite carbon source raw material reaches a preset liquid level, the opening and closing assembly is controlled to open the transfer detection cylinder, and the composite carbon source raw material falls into the interior of the composite carbon source mixing cylinder, so that the approval of the composite carbon source raw material amount is realized;

3. according to the invention, the driving rack is driven to move by the angle adjustment driving electric cylinder to drive the composite carbon source mixing cylinder to rotate so as to incline the composite carbon source mixing cylinder, the driving sliding block and the composite carbon source mixing cylinder are driven to reciprocate by shaking the driving electric cylinder, so that shaking of the composite carbon source mixing cylinder is realized, and raw materials in the composite carbon source mixing cylinder are stirred by the stirring mechanism, so that the raw materials of the composite carbon source are fully mixed;

therefore, the quantitative addition of the composite carbon source raw materials can be realized through the cooperation of the extrusion electric cylinder and the extrusion plate, the composite carbon source raw materials can be approved through the liquid level sensor, the composite carbon source raw materials can be fully mixed and stirred through the cooperation of the shaking and homogenizing mechanism and the stirring mechanism, and compared with the prior art, the quantitative addition of the composite carbon source can be realized through the scheme, and meanwhile, the composite carbon source raw materials can be fully mixed.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view of a part of the present invention in cross section;

FIG. 2 is a schematic diagram of the structure of the present invention;

FIG. 3 is a schematic view of another angle of the present invention;

FIG. 4 is a schematic diagram of a shaking and evening mechanism according to the present invention;

FIG. 5 is a schematic structural view of the quantitative feeding mechanism and the quantitative detecting mechanism of the present invention;

FIG. 6 is a schematic structural view of the quantitative detecting mechanism of the present invention;

FIG. 7 is a schematic view of a partial enlarged structure of the present invention at A in FIG. 1;

FIG. 8 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 1;

FIG. 9 is a schematic view of a partially enlarged structure of the present invention at C in FIG. 1;

FIG. 10 is a schematic view of a partially enlarged structure of the present invention at D in FIG. 2;

fig. 11 is a schematic view of a partially enlarged structure at E in fig. 3 according to the present invention.

In the figure:

1. a composite carbon source mixing cylinder; 2. a discharge pipe; 3. a support frame body;

101. a stirring motor; 102. stirring the leaves;

201. an angle adjustment driving electric cylinder; 202. a driven gear; 203. a drive rack; 204. a support shaft;

301. driving a sliding block; 302. shaking the driving electric cylinder; 303. a sliding rail; 304. a drive shaft;

401. a raw material cylinder; 402. extruding an electric cylinder; 403. an extrusion plate; 404. a material extracting head; 405. a transparent viewing window; 406. a scale;

501. a transfer detection cylinder; 502. a pressure release valve; 503. opening and closing the electric cylinder; 504. a closing block; 505. a liquid level sensor; 506. and (5) exiting the pipe.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 11, the invention provides raw material mixing and stirring equipment for preparing a composite carbon source, which comprises a composite carbon source mixing cylinder 1 and a stirring mechanism, wherein the bottom of the composite carbon source mixing cylinder 1 is communicated with a discharge pipe 2 with a valve, the discharge pipe 2 can be opened through the valve, the mixed composite carbon source can be discharged through the discharge pipe 2, the stirring mechanism comprises a stirring motor 101 and stirring blades 102, the stirring motor 101 is arranged on the composite carbon source mixing cylinder 1, the stirring blades 102 are provided with a plurality of stirring shafts, the inside of the composite carbon source mixing cylinder 1 is rotatably provided with stirring shafts, one ends of the stirring shafts are fixedly arranged at the output ends of the stirring motor 101, the stirring blades 102 are fixedly sleeved on the periphery of the stirring shafts, the stirring shafts and the stirring blades 102 can be driven to rotate through the stirring motor 101, and the composite carbon source raw materials inside the composite carbon source mixing cylinder 1 can be stirred and mixed through the stirring blades 102.

The raw material mixing and stirring equipment for preparing the composite carbon source further comprises a support frame body 3, a quantitative feeding mechanism and a quantitative detection mechanism.

The composite carbon source mixing cylinder 1 is mounted on a support frame body 3 through a shaking and leveling mechanism, the shaking and leveling mechanism comprises an angle adjusting unit and a shaking unit, the angle adjusting unit is used for rotating the composite carbon source mixing cylinder 1, the angle adjusting unit comprises an angle adjusting driving electric cylinder 201 and a driven gear 202, the angle adjusting driving electric cylinder 201 is mounted on the support frame body 3, two driving racks 203 are fixedly mounted at the output end of the angle adjusting driving electric cylinder 201 through a connecting frame, two driven gears 202 are arranged, the driven gear 202 is rotatably mounted on the support frame body 3 through a support shaft 204, the two driven gears 202 are respectively meshed with the corresponding driving racks 203, the shaking unit is used for driving the composite carbon source mixing cylinder 1 to slide, the shaking unit comprises a driving sliding block 301 and a shaking driving electric cylinder 302, a sliding rail 303 is fixedly mounted inside the driven gear 202, the driving sliding block 301 is slidably mounted inside the sliding rail 303, the composite carbon source mixing cylinder 1 is fixedly provided with two driving shafts 304, the two driving shafts 304 are respectively fixedly mounted on the corresponding driving sliding blocks 301, the shaking driving electric cylinder 302 is mounted on the driven gear 202, and the output ends of the driving electric cylinders 302 extend into the sliding rails 301 and are fixedly mounted inside the sliding blocks 301;

the driving rack 203 can be driven to move through the expansion and contraction of the angle adjustment driving electric cylinder 201, so that the driven gear 202 is driven to rotate around the supporting shaft 204, the driven gear 202 drives the sliding rail 303 and the driving sliding block 301 to rotate, so that the driving shaft 304 and the composite carbon source mixing cylinder 1 are driven to rotate, the composite carbon source mixing cylinder 1 is inclined, the driving sliding block 301 is driven to slide in the sliding rail 303 through the expansion and contraction of the shaking driving electric cylinder 302, the driving shaft 304 and the composite carbon source mixing cylinder 1 are driven to shake reciprocally, and therefore raw materials of the composite carbon source in the composite carbon source mixing cylinder 1 are uniformly mixed, and meanwhile, in the shaking process, the composite carbon source can wash the inner wall of the composite carbon source mixing cylinder 1 and the stirring mechanism, so that the cleaning of the inside of the composite carbon source mixing cylinder 1 is ensured.

The quantitative feeding mechanism is used for quantitatively conveying various raw materials to the inside of the composite carbon source mixing cylinder 1, the quantitative feeding mechanism comprises a plurality of raw material cylinders 401 and extrusion components, the raw material cylinders 401 are arranged on the supporting frame body 3 through fixing frames, the extrusion components are arranged on the raw material cylinders 401 and used for sucking materials into the raw material cylinders 401 and feeding materials into the composite carbon source mixing cylinder 1, the extrusion components comprise extrusion electric cylinders 402, extrusion plates 403 and pumping heads 404, the extrusion electric cylinders 402 are arranged at the tops of the raw material cylinders 401, the extrusion plates 403 are fixedly arranged at the output ends of the extrusion electric cylinders 402, the extrusion electric cylinders 402 and the inner walls of the composite carbon source mixing cylinder 1 are in sealing sliding fit, the pumping heads 404 are communicated with the bottoms of the raw material cylinders 401, and valves are arranged on the pumping heads 404;

can drive extrusion plate 403 through extrusion electronic jar 402 and go up and down, when extrusion plate 403 upwards moves, the pressure of extrusion plate 403 below reduces, with take out stub bar 404 intercommunication water pipe, and put into the inside of holding the storage tank or other storage facilities of compound carbon source raw materials with the water pipe, open the valve, the inside of drawing in compound carbon source raw materials into raw materials section of thick bamboo 401 under the effect of external pressure, under the effect of not receiving external force, compound carbon source raw materials keeps stable in the inside of raw materials section of thick bamboo 401, after closing the valve, extrusion electronic jar 402 drives extrusion plate 403 and descends, can follow the inside discharge of raw materials section of thick bamboo 401 with compound carbon source raw materials, the viewing aperture has been seted up on the raw materials section of thick bamboo 401, the internally mounted of viewing aperture has transparent observation window 405, and be provided with scale 406 on the raw materials section of thick bamboo 401, can carry out comparatively clear observation to the compound carbon source raw materials volume of raw materials inside of raw materials section of thick bamboo 401 through scale 406, can observe the compound carbon source raw materials volume of extruding simultaneously, thereby guarantee to the ration interpolation to compound carbon source raw materials of raw materials, and all be provided with the sign on the outer wall of raw materials section of thick bamboo 401, the compound carbon source raw materials that holds in the raw materials section of thick bamboo 401.

The quantitative detection mechanism is used for detecting the raw material quantity sent by the quantitative feeding mechanism and discharging the raw material quantity into the composite carbon source mixing cylinder 1 without errors, the quantitative detection mechanism comprises a transfer detection cylinder 501, an opening and closing assembly and a quantitative detection assembly, the transfer detection cylinder 501 is provided with a plurality of transfer detection cylinders 501, the transfer detection cylinder 501 is communicated with the top of the composite carbon source mixing cylinder 1, the top of the transfer detection cylinder 501 is communicated with the bottom of the raw material cylinder 401 through a conveying pipe, the conveying pipe is a hose and can be matched with the rotation and shaking of the composite carbon source mixing cylinder 1 and the transfer detection cylinder 501, a pressure relief valve 502 is arranged at the top of the transfer detection cylinder 501, the opening and closing assembly is arranged at the bottom of the transfer detection cylinder 501 and used for realizing the closing and opening of the transfer detection cylinder 501, the opening and closing assembly comprises an opening and closing electric cylinder 503 and a closing block 504, the bottom of the transfer detection cylinder 501 is provided with a protective cover, the opening and closing electric cylinder 503 is arranged in the protective cover, the opening and closing electric cylinder 503 can be protected by the protective cover, the composite carbon source raw material can be contacted with the protective cover when falling, the protective cover so as to avoid direct contact with the opening and closing of the opening electric cylinder 503, the connecting or corrosion of the connecting electric connection, the sealing and the sealing block 504 is fixedly arranged at the bottom of the transfer detection cylinder 501 and the transfer detection cylinder 501, the opening and closing electric cylinder 501, the liquid level sensor is used for sensing the liquid level sensor, the opening and closing assembly and the electric level sensor, and the opening and closing assembly and the electric level sensor;

the extrusion plate 403 is driven to move downwards by the extrusion electric cylinder 402 for a certain distance, a certain amount of composite carbon source raw material is discharged into the transfer detection cylinder 501, the electric cylinder 503 is initially opened and closed to drive the sealing block 504 to be tightly pressed at the bottom of the transfer detection cylinder 501 to seal the transfer detection cylinder, the composite carbon source raw material is prevented from flowing into the interior of the composite carbon source mixing cylinder, when the composite carbon source raw material is discharged into the interior of the transfer detection cylinder 501, the pressure in the interior of the transfer detection cylinder 501 is increased, redundant gas can be discharged through the pressure relief valve 502, the obstruction to the addition of the composite carbon source raw material caused by excessive pressure is avoided, the composite carbon source raw material amount in the interior of the transfer detection cylinder 501 is detected through the liquid level gauge, the liquid level gauge is connected with the central processor, the liquid level gauge is preset, the liquid level data is transmitted to the central processor through the liquid level gauge, when the liquid level is identical with the preset amount, the CPU controls the opening and closing electric cylinder 503 to drive the closing block 504 to move, the transfer detection cylinder 501 is opened, the composite carbon source raw material in the transfer detection cylinder 501 can fall into the composite carbon source mixing cylinder 1, if the liquid level is different from the preset quantity, the CPU is also connected with a plurality of alarms, the alarms respectively correspond to the plurality of transfer detection cylinders 501 and the plurality of liquid level sensors 505, the CPU controls the corresponding alarms to alarm, an operator can find the transfer detection cylinder 501 with a problem according to the alarm position to overhaul the problem, the bottom of the transfer detection cylinder 501 is communicated with the outlet pipe 506, a valve is arranged on the outlet pipe 506, if the quantity of raw material is large, the valve is opened to discharge redundant raw material, if the quantity of raw material is small, the extrusion electric cylinder 402 is opened to continuously feed the interior of the transfer detection cylinder 501, so as to realize quantitative addition of the composite carbon source raw material, and simultaneously approving the amount of the composite carbon source raw material.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (5)

1. Raw material mixing and stirring equipment for preparing composite carbon source comprises a composite carbon source mixing cylinder (1) and a stirring mechanism, and is characterized by further comprising:

the composite carbon source mixing cylinder (1) is arranged on the support frame (3) through a shaking and homogenizing mechanism;

the quantitative feeding mechanism is used for quantitatively conveying various raw materials into the composite carbon source mixing cylinder (1);

the quantitative detection mechanism is used for detecting the raw material quantity sent out by the quantitative feeding mechanism and discharging the raw material quantity into the composite carbon source mixing cylinder (1) without errors, and comprises the following components;

the transfer detection cylinders (501) are arranged, the transfer detection cylinders (501) are communicated with the top of the composite carbon source mixing cylinder (1), and the transfer detection cylinders (501) are communicated with the quantitative feeding mechanism;

the opening and closing assembly is arranged at the bottom of the transfer detection cylinder (501) and is used for closing and opening the transfer detection cylinder (501);

the quantitative detection assembly is used for detecting the medicament amount and controlling the opening and closing of the opening and closing assembly, and comprises;

the liquid level sensor (505), the liquid level sensor (505) is installed inside the transit detection cylinder (501), and the liquid level sensor (505) is electrically connected with the opening and closing component;

the shaking and homogenizing mechanism comprises;

the angle adjusting unit is used for rotating the composite carbon source mixing cylinder (1);

the shaking unit is used for driving the composite carbon source mixing cylinder (1) to slide;

the angle adjusting unit includes:

the angle adjustment driving electric cylinder (201), the angle adjustment driving electric cylinder (201) is arranged on the support frame body (3), and two driving racks (203) are fixedly arranged at the output end of the angle adjustment driving electric cylinder (201) through a connecting frame;

driven gears (202), wherein the driven gears (202) are provided with two, the driven gears (202) are rotatably installed on the support frame body (3) through a support shaft (204), and the two driven gears (202) are respectively meshed with the two driving racks (203);

the shaking unit includes:

the composite carbon source mixing cylinder (1) is fixedly provided with two driving shafts (304), and the two driving shafts (304) are respectively and fixedly arranged on the corresponding driving slide blocks (301);

and the shaking driving electric cylinder (302), the shaking driving electric cylinder (302) is arranged on the driven gear (202), and the output end of the shaking driving electric cylinder (302) extends into the sliding track (303) and is fixedly arranged with the driving sliding block (301).

2. The raw material mixing and stirring apparatus for preparing a composite carbon source according to claim 1, wherein the quantitative feeding mechanism comprises:

the raw material drums (401), wherein a plurality of raw material drums (401) are arranged, and the raw material drums (401) are arranged on the support frame body (3) through a fixing frame;

the extrusion assembly is arranged on the raw material barrel (401) and is used for sucking materials into the raw material barrel (401) and feeding materials into the composite carbon source mixing barrel (1);

the material extracting head (404), the material extracting head (404) is communicated with the bottom of the raw material barrel (401), and a valve is arranged on the material extracting head (404).

3. The raw material mixing and stirring apparatus for preparing a composite carbon source according to claim 2, wherein the extrusion assembly comprises:

an extrusion electric cylinder (402), the extrusion electric cylinder (402) being mounted on top of the raw material cylinder (401);

the extrusion plate (403), extrusion plate (403) fixed mounting is in the output of extrusion electronic jar (402), extrusion electronic jar (402) with the inner wall of compound carbon source mixing cylinder (1) is sealed sliding fit.

4. The raw material mixing and stirring apparatus for producing a composite carbon source as defined in claim 3, wherein the opening/closing assembly comprises:

an opening and closing electric cylinder (503), wherein a protective cover is arranged at the bottom of the transit detection cylinder (501), and the opening and closing electric cylinder (503) is arranged in the protective cover;

the sealing block (504), the sealing block (504) is fixedly arranged at the output end of the opening and closing electric cylinder (503) and is used for sealing the bottom of the transit detection cylinder (501).

5. The raw material mixing and stirring apparatus for preparing a composite carbon source according to claim 4, wherein an observation port is provided on the raw material tube (401), a transparent observation window (405) is provided in the interior of the observation port, and a scale (406) is provided on the raw material tube (401).